CN1871346A - Engineering single-gene-controlled staygreen potential into plants - Google Patents

Abstract

The enzymes of the ACC synthase family are used in producing ethylene. Nucleotide and polypeptide sequences of ACC synthases are provided along with knockout plant cells having inhibition in expression and/or activity in an ACC synthase and knockout plants displaying a staygreen phenotype, a male sterility phenotype, or an inhibition in ethylene production. Methods for modulating staygreen potential in plants, methods for modulating sterility in plants, and methods for inhibiting ethylene production in plants are also provided.

Description

The green potentiality through engineering approaches of guarantor of single-gene control is advanced in the plant cross reference with related application

The utility patent application that the application's right and wrong are interim, it requires to enjoy the USSN60/480 that the right of priority and the interests of following existing temporary patent application: Gallie etc. submitted on June 23rd, 2003,861, its title is " Engineering single-gene-controlledstaygreen potential into plants ", and it here is that all purposes are incorporated by reference.

Statement about the invention right that produces under the research and development of supporting in federation

The government that the present invention has obtained the subsidy 95-35304-4657 of USDA/CREES supports and the support of the subsidy MCB-0076434-002 of National Science Foundation (National Science Foundation).Government may have some right to this invention.

Invention field

The present invention relates to regulate guarantor green (staygreen) potentiality of plant, suppress ethylene production of plant and the sterility of regulating plant.The present invention also provides the vegetable cell that knocks out, and for example, wherein destroyed the acc synthase of the vegetable cell that knocks out and expressed and/or activity, or the plant that knocks out, for example, it can show protects green phenotype or male sterile phenotype.The nucleotide sequence and the aminoacid sequence that also comprise the various acc synthases of to encode.

Background of invention

Protecting green is the term that is used to describe plant phenotype, for example, thereby compares with standard reference, has postponed leaf aging (by the yellow of the leaf relevant with chlorophyll degradation, can the most easily distinguish).Referring to, Thomas H and Howarth CJ (2000) " Five ways to staygreen " Journal of Experimental Botany51:329-337.In Chinese sorghum, identified the green genotype of several guarantors, they can show the delay of leaf aging in grain milk and sophisticated process.Referring to, Duncan RR waits (1981) " Descriptivecomparison of senescent and non-senescent sorghum genotypes. " Agronomy Journal73:849-853.And, having under the condition of the operability of restricting water supply, this can quicken usually the leaf aging (referring to, for example, Rosenow DT and Clark LE (1981) Drought tolerance in sorghum.In:Loden HD, Wilkinson D compiles Proceedings of the 36th annual corn and sorghum industry Research conference18-31), these genotype can keep more greenery zone, and the seed that can continue usually to be in the milk (referring to, for example, McBee GG, Waskom RM, MillerFR, Creelman RA (1983) Effect of senescence and non-senescenceon carbohydrates in sorghum during late kernel maturity states. Crop Science23:372-377; Rosenow DT, Quisenberry JE, WendtCW, Clark LE (1983) Drought-tolerant sorghum and cottongermplasm. Agricultural Water Management7:207-222; With Borrell AK, Douglas ACL (1996) Maintaining green leaf area ingrain sorghum increases yield in a water-limited environment.In:Foale MA, Henzell RG, Kneipp JF compiles Proceedings of the Third Australian sorghum conference.Melbourne:Australian Institute of Agricultural Science, occasional Publication No. 93).Protect green phenotype also as the choice criteria of the corn variety of exploitation improvement, especially about the exploitation of drought tolerance.Referring to, for example, Russell WA (1991) Geneticimprovement of maize yields. Advances in Agronomy46:245-298; With (2002) such as Bruce, " Molecular and physiologicalapproaches to maize improvement for drought tolerance " Journal Of Experimental Botany, 53 (366): 13-25.

The green type of guarantor of 5 kinds of fundamental differences has been described, they be type A, B, C, D and E (referring to for example, Thomas H, Smart CM (1993) Crops that stay green. Annals of Applied Biology123:193-219; With, Thomas and Howarth, the same).In type A guarantor is green, has postponed the startup of old and feeble program, but carried out with normal speed then.In the type B guarantor is green,, make progress slower relatively although the startup of old and feeble program does not change.Type C protect green in, although carry out aging (as determined, for example photosynthetic capacity), but still can keep chlorophyll by measuring physiological function with normal speed.It is artificial more that type D protects green, can stop the startup of old and feeble program because kill leaf (promptly by freezing, boil or dry), thereby stop chlorophyllous degraded.In type E guarantor was green, chlorophyllous original level was higher, and the startup of leaf aging and progress do not change, and had provided the illusion of lower relatively advance rate thus.Type A and B are that functional guarantor is green, because photosynthetic capacity keeps along with chlorophyll content, and they are types relevant with drought tolerance with the high yield of Chinese sorghum.Although the potential importance of this proterties is arranged, especially relevant interests with high yield and drought tolerance, aspect green biochemical, the physiological or molecule of the guarantor who understands the heredity decision basic, (Thomas and Howarth, the same) almost do not make progress.

The invention solves the problem of these and other.The present invention relates to the discriminating of the acc synthase gene relevant and protect the adjusting of green potentiality and/or ethylene production with the green potentiality phenotype of the guarantor of plant.After the material below having read, can understand method and the vegetable cell that knocks out and plant and other feature by the sterility of the polypeptide of these genes encodings, the method for regulating the green potentiality of guarantor of plant, the method that suppresses the ethylene production of plant, adjusting plant.

Summary of the invention

The invention provides the method and composition that the ethene of the sterility of regulate protecting green potentiality and plant and adjusting (for example, suppressing) plant is synthetic and/or produce.The invention still further relates to the acc synthase nucleotide sequence of plant, example for example, SEQ ID NO:1 to SEQ ID NO:6 and SEQ ID NO:10, with one group of peptide sequence, for example, SEQ ID NO:7 to SEQ ID NO:9 and SEQ ID NO:11, they can regulate these activity.

In first aspect, the invention provides the vegetable cell that knocks out isolating or reorganization, its comprise at least one endogenous acc synthase gene at least one destruction (for example, nucleotide sequence or its complementary sequence, itself and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6) or SEQ ID NO:3 (gACS7) for example have at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or higher sequence identity.The control plant cell corresponding with lacking this destructive compared, and this energy of rupture suppresses proteic expression of at least a acc synthase or activity.In one embodiment, this at least one endogenous acc synthase gene comprises 2 or more a plurality of endogenous acc synthase gene (for example, among ACS2, ACS6 and the ACS7 any 2 or more a plurality of, for example, ACS2 and ACS6).Similarly, in another embodiment, this at least one endogenous acc synthase gene comprises 3 or more a plurality of endogenous acc synthase gene.In certain embodiments, compare with the control plant cell, this destruction can cause the vegetable cell that knocks out to reduce ethylene production.

In one embodiment, import in the vegetable cell by the polynucleotide sequence that at least one is comprised acc synthase nucleotide sequence or its subsequence, thereby at least one polynucleotide sequence so that being arranged, justice or antisense orientation is connected on the promotor, and wherein at least one polynucleotide sequence and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6), SEQ ID NO:3 (gACS7), SEQ ID NO:4 (cACS2), SEQ ID NO:5 (cACS6), SEQ ID NO:6 (cACS7) or SEQ ID NO:10 (CCRA178R) or its subsequence or its complementary sequence have for example at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or higher sequence identity, produced at least one destruction in the vegetable cell that knocks out.In another embodiment, by importing at least one polynucleotide sequence, it is included as one or more subsequences of the acc synthase nucleotide sequence of RNA silence or interference constructing, will destroy to import in the vegetable cell.

In another embodiment, destroy the insertion that comprises one or more transposons, wherein one or more transposons are at least one endogenous acc synthase gene.In another embodiment, destroy the one or more point mutation that are included at least one endogenous acc synthase gene.Destruction can be the destruction of isozygotying at least one acc synthase gene.Perhaps, destruction is the destruction of the heterozygosis at least one acc synthase gene.In certain embodiments, when comprising above an acc synthase gene, exist to surpass a destruction, it can comprise the destruction of isozygotying, the destruction of heterozygosis or the destructive combination of destruction of isozygotying and heterozygosis.

In certain embodiments, vegetable cell of the present invention is from dicotyledons or monocotyledons.In one aspect, vegetable cell is in comprising the heterozygosis plant that protects green potentiality phenotype.In yet another aspect, vegetable cell is in the plant that comprises sterile phenotype, for example male sterile phenotype.From vegetable cell regenerated plant of the present invention, also be feature of the present invention.

The present invention also provides and has comprised the plant that knocks out that protects green potentiality phenotype.For example, the invention provides and comprise the plant that knocks out that protects green potentiality phenotype, wherein protect the destruction that green potentiality phenotype is derived from least one endogenous acc synthase gene.In one embodiment, destruction comprises one or more transposons, and compares with corresponding control plant, can suppress proteic expression of at least a acc synthase or activity.In another embodiment, destroy the one or more point mutation that comprise in the endogenous acc synthase gene, and compare, can suppress proteic expression of at least a acc synthase or activity with corresponding control plant.In certain embodiments, at least one endogenous acc synthase gene comprise with SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6) or SEQ ID NO:3 (gACS7) or its complementary sequence for example have at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or the nucleotide sequence of higher sequence identity.In certain embodiments, the plant that knocks out is a hybrid plant.If appropriate, all basically above-mentioned features also are applicable to this embodiment.

In another embodiment, the plant that knocks out comprises and comprises the transgenic plant that protect green potentiality phenotype.For example, transgenic plant of the present invention comprise the green potentiality phenotype of guarantor, and the latter is derived from the energy ethene suppressing synthetic transgenosis of at least one importing.The transgenosis that imports comprises the nucleotide sequence of can encode at least a acc synthase or its subsequence, this nucleotide sequence and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6), SEQ ID NO:3 (gACS7), SEQ ID NO:4 (cACS2), SEQ ID NO:5 (cACS6), SEQ ID NO:6 (cACS7) or SEQ ID NO:10 (CCRA178R) or its subsequence or its complementary sequence have for example at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or higher sequence identity, and expression or activity level that its configurational energy is modified at least a acc synthase (for example, have justice, antisense, reticent or the interference configuration of RNA).If appropriate, all basically above-mentioned features also are applicable to this embodiment.

Transgenic plant of the present invention also can comprise the green potentiality phenotype of guarantor, the latter is derived from the energy ethene suppressing synthetic transgenosis of at least one importing, the transgenosis of wherein said at least one importing comprises the nucleotide sequence of the subsequence of at least a acc synthase of encoding, this at least a acc synthase and SEQ ID NO:7 (pACS2), SEQ ID NO:8 (pACS6), SEQ ID NO.:9 (pACS7) or SEQ ID NO.:11 (pCCRA178R) or its conservative variant have for example at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or higher sequence identity.Nucleotide sequence generally is in the reticent or interference configuration (perhaps, for example, justice or antisense configuration being arranged) of RNA, and can modify the expression or the activity level of at least a acc synthase.If appropriate, all basically above-mentioned features also are applicable to this embodiment.

The green potentiality of the guarantor of plant of the present invention include but not limited to, for example, compare with corresponding control plant, (a) are reduced by at least the production of the specific mRNA of a kind of acc synthase; (b) production of minimizing acc synthase; (c) production of minimizing ethene; (d) postpone the leaf aging; (e) strengthen drought resistance; (f) keep photosynthetic activity for a long time; (g) enhanced transpiration; (h) enhanced stomatal conductance; (i) enhanced CO ₂Assimilation; (j) CO is kept in enhancing ₂Assimilation; Or (k) arbitrary combination of (a)-(j); Deng.

One aspect of the present invention provides plant that knock out or genetically modified, and it comprises sterile phenotype, for example, and male or female sterile phenotype.Thereby a class embodiment provides the plant that knocks out that comprises male sterile phenotype (for example, the pollen of minimizing discharges), and it is derived from least one destruction at least one endogenous acc synthase gene.Compare with corresponding control plant, this energy of rupture suppresses proteic expression of at least a acc synthase or activity.In one embodiment, compare with control plant, the plant that at least one destruction can cause knocking out reduces ethylene production.In one embodiment, at least one destruction comprises one or more transposons, and wherein one or more transposons are at least one endogenous acc synthase gene.In another embodiment, at least one destruction comprises one or more point mutation, and wherein one or more point mutation are at least one endogenous acc synthase gene.In another embodiment, by importing at least one polynucleotide sequence, it is included as one or more subsequences of the acc synthase nucleotide sequence of RNA silence or interference constructing, at least one is destroyed importing in the plant that knocks out.In certain embodiments, at least one endogenous acc synthase gene comprise with SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6) or SEQ ID NO:3 (gACS7) or its complementary sequence for example have at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or the nucleotide sequence of higher sequence identity.If appropriate, all basically above-mentioned features also are applicable to this embodiment.

Another kind of embodiment provides the genetically modified plant that knocks out, and it comprises the male sterile phenotype, and the latter is derived from the energy ethene suppressing synthetic transgenosis of at least one importing.The transgenosis of at least one importing comprises the nucleotide sequence of at least a acc synthase of encoding, this nucleotide sequence and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6), SEQ ID NO:3 (gACS7), SEQ ID NO:4 (cACS2), SEQ ID NO:5 (cACS6), SEQ ID NO:6 (cACS7) or SEQ ID NO:10 (CCRA178R) or its subsequence or its complementary sequence have at least about 85% sequence identity, and its configurational energy is modified the expression or activity level (for example, the antisense of at least a acc synthase, reticent or the interference configuration of justice or RNA is arranged).In certain embodiments, transgenosis comprises tissue-specific promotor or inducible promoter.If appropriate, all basically above-mentioned features also are applicable to this embodiment.

Polynucleotide also are features of the present invention.In certain embodiments, polynucleotide isolating or reorganization comprise and are selected from following member: (a) polynucleotide or its complementary sequence, itself and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6), SEQ ID NO:3 (gACS7), SEQ ID NO:4 (cACS2), SEQ ID NO:5 (cACS6), SEQ ID NO:6 (cACS7) or SEQ ID NO:10 (CCRA178R) or its subsequence or its conservative variant have for example at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or higher sequence identity; (b) polynucleotide or its complementary sequence, peptide sequence or its subsequence or its conservative variant of its SEQ ID NO:7 (pACS2) that can encode, SEQ ID NO:8 (pACS6), SEQ ID NO.:9 (pACS7) or SEQ ID NO:11 (pCCRA178R); (c) polynucleotide or its complementary sequence, it can be under stringent condition and at least 100 polynucleotide subsequences hybridization in abutting connection with Nucleotide that comprise SEQ ID NO:1 (gACS2), SEQID NO:2 (gACS6), SEQ ID NO:3 (gACS7), SEQ ID NO:4 (cACS2), SEQ ID NO:5 (cACS6), SEQ ID NO:6 (cACS7) or SEQ ID NO:10 (CCRA178R) of complete length basically, perhaps its can with (a) or the hybridization of polynucleotide sequence (b); With, (d) polynucleotide, itself and (a) and (b) or polynucleotide sequence (c) have at least about 85% identity.In certain embodiments, when expressing in plant, polynucleotide can ethene suppressing production.

Polynucleotide of the present invention can comprise or be comprised in (for example, virus vector) in expression cassette or the carrier.Carrier or expression cassette can comprise the promotor that is operably connected on these polynucleotide (for example, promotor composing type, tissue-specific or induction type).Polynucleotide of the present invention can be connected on the promotor with antisense orientation or sense orientation, are set for RNA silence or interference etc.

The present invention also provides the method that suppresses the ethylene production in the plant (with the plant that produces by such method).For example, the method of ethene suppressing production comprises the one or more acc synthase genes in the deactivation plant, wherein one or more acc synthase genes can encode one or more acc synthases, the wherein at least a and SEQ ID NO:7 (pACS2) in one or more acc synthases, SEQ ID NO:8 (pACS6), SEQ ID NO:9 (pAC7) or SEQ ID NO:11 (pCCRA178R) have for example at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or higher identity.

In one embodiment, inactivation step comprises one or more sudden changes importing acc synthase gene sequences, wherein the one or more sudden changes in the acc synthase gene sequence comprise one or more transposons, compare the one or more acc synthase genes of deactivation thus with corresponding control plant.In another embodiment, inactivation step comprises one or more sudden changes importing acc synthase gene sequences, wherein the one or more sudden changes in the acc synthase gene sequence comprise one or more point mutation, compare the one or more acc synthase genes of deactivation thus with corresponding control plant.One or more sudden changes can comprise, for example, the destruction of isozygotying in one or more acc synthase genes, the destruction of the heterozygosis in one or more acc synthase genes, or the combination of the destructive of destruction of isozygotying and heterozygosis, surpass an acc synthase gene if destroyed.In certain embodiments, one or more sudden changes have been imported by sexual hybridization.In certain embodiments, at least one in one or more acc synthase genes and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6) or SEQ ID NO:3 (gAC7) or its complementary sequence for example have at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or higher identity.

In another embodiment, inactivation step comprises: (a) at least one polynucleotide sequence is imported in the plant, wherein at least one polynucleotide sequence comprises nucleic acid or its subsequence and the promotor of one or more acc synthases of encoding, this promotor can work in plant, to generate the RNA sequence; With, (b) express at least one polynucleotide sequence, compare the one or more acc synthase genes of deactivation with corresponding control plant (for example, the non--transgenic plant of its non--transgenosis parent or same species) thus.For example,, include but not limited to the transfer of electroporation, microparticle bombardment, edaphic bacillus (Agrobacterium)-mediation etc., can import at least one polynucleotide sequence by multiple technologies.Aspect some, polynucleotide are connected on the promotor with sense orientation or antisense orientation of the present invention, or it is reticent or disturb to be set for RNA.If appropriate, all basically above-mentioned features also are applicable to this embodiment.

The method of regulating the green potentiality of guarantor of plant also is a feature of the present invention (plant that produces by such method is a feature of the present invention too).For example, regulating the method for protecting green potentiality comprises: (for example a) select at least one acc synthase gene, the acc synthase of encoding, for example SEQ ID NO:7 (pACS2), SEQ ID NO:8 (pACS6), SEQ ID NO:9 (pAC7) or SEQ ID NO:11 (pCCRA178R)) suddenly change, thus the acc synthase gene that provides at least one to need; B) (for example with mutant form, the antisense of at least one acc synthase gene or its subsequence or adopted configuration is arranged, the reticent configuration of the RNA of at least one acc synthase gene or its subsequence, heterozygous mutant at least one acc synthase gene, homozygous mutation at least one acc synthase gene, or the combination of homozygous mutation and heterozygous mutant, if selected to surpass an acc synthase gene, etc.) at least one acc synthase gene that needs import plant; With, c) express mutant form, thus the green potentiality of guarantor of regulating plant.In one embodiment, select at least one acc synthase gene, comprise the degree (for example, weak, medium or strong) of the green potentiality of guarantor of determining needs.In certain embodiments, the transfer by edaphic bacillus-mediation, electroporation, microparticle bombardment, sexual hybridization etc. import the gene of sudden change.If appropriate, all basically above-mentioned features also are applicable to this embodiment.

Can be qualitatively (whether have one or more target products) by detecting or quantitatively (by monitoring the expression level of one or more target products) detect expression product.In one embodiment, expression product is the rna expression product.Aspect of the present invention randomly comprise monitoring nucleic acid, polypeptide or pharmaceutical chemicals (for example, ACC, ethene, etc.) expression level, pointed as this paper about detecting acc synthase in plant or the plant population, ethylene production, the green potentiality of guarantor etc.

The compositions and methods of the invention can comprise many plants, for example, and the plant of Gramineae (Poaceae) (Gramineae (Gramineae)).In one embodiment, plant is the corn system of Zea mays, wheat, rice, Chinese sorghum, barley, oat, turfgrass, rye, soybean, tomato, potato, pepper, sprouting broccoli, Caulis et Folium Brassicae capitatae, commerce etc.

The test kit of having integrated one or more above-mentioned nucleic acid or polypeptide also is a feature of the present invention.Such test kit can comprise any said components, and for example comprises in addition, working instructions, the wrapping material of the component in any method as herein described, is used to container that holds component etc.For example, the test kit that is used to regulate the green potentiality of guarantor of plant comprises a container, it is equipped with at least one polynucleotide sequence that comprises nucleotide sequence, wherein this nucleotide sequence and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6), SEQ ID NO:3 (gACS7), SEQ ID NO:4 (cACS2), SEQ ID NO:5 (cACS6), SEQ ID NO:6 (cAC7) or SEQ ID NO:10 (CCRA178R) or its subsequence or its complementary sequence have for example at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or higher identity.In another embodiment, test kit comprises about using at least one polynucleotide sequence to come the illustrative material of the green potentiality of guarantor of controlling plant.If appropriate, all basically above-mentioned features also are applicable to this embodiment.

As another example, be used to regulate the sterile of plant, for example male sterile test kit comprises a container, it is equipped with at least one polynucleotide sequence that comprises nucleotide sequence, wherein this nucleotide sequence and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6), SEQ IDNO:3 (gACS7), SEQ ID NO:4 (cACS2), SEQ ID NO:5 (cACS6), SEQID NO:6 (cAC7) or SEQ ID NO:10 (CCRA178R) or its subsequence or its complementary sequence have for example at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or higher identity.Test kit also randomly comprises about using at least one polynucleotide sequence to come sterile, the male sterile illustrative material for example of controlling plant.If appropriate, all basically above-mentioned features also are applicable to this embodiment.

Definition

Before describing the present invention in detail, be to be understood that to the invention is not restricted to specific device or biology system that it certainly changes.It is also understood that term used herein only is used to describe the purpose of specific embodiments, and be not intended to limit.As employed in this specification and the appended claims, singulative " (a) ", " a kind of (an) " and " being somebody's turn to do (the) " comprise plural object, unless its content is clearly made opposite explanation.Thereby for example, " cell " comprises the combination of 2 or more a plurality of cells, or the like.

Unless otherwise defined, all technology of using in this article and scientific terminology have the identical implication with those skilled in the art's common sense.Describing and claimed when of the present invention,, using following term according to following definition.

Term " plant " usually refer to following any one: whole plant, plant part or organ are (for example, leaf, stem, root, Deng), stem vegetative organ/structure (leaf for example, stem and stem tuber), root, organ/the structure of flower and flower (bract for example, sepal, petal, stamen, carpel, flower pesticide and ovule), seed (comprises embryo, endosperm and kind skin), fruit (sophisticated ovary), plant tissue (vascular tissue for example, standard weave, etc.), tissue culture callus and vegetable cell (guard cell for example, ovum, trichome etc.) and their offspring.As used herein, vegetable cell also includes but not limited to cell that obtain or discovery from following tissue: seed, culture, suspension culture, embryo, meristem zone, callus, leaf, root, stem, gametophyte, sporophyte, pollen and sporule.Vegetable cell can also be interpreted as the cell that comprises the modification that obtains from aforementioned tissue, for example protoplastis.

Term " dicotyledons " refers to dicots plant.Dicots plant belongs to the angiospermous big subclass with 2 cotyledons (cotyledon).

Term " monocotyledons " refers to monocotyledonous plant, and it only has 1 cotyledon developmental plant.

Term " vegetable cell that knocks out " refers to have the destructive vegetable cell at least one acc synthase gene of cell, compares with control cells, and this destruction can cause the expression or the activity of the acc synthase of this genes encoding of reducing.Knock out can be for example antisense constructs, have that the reticent construct of adopted construct, RNA, RNA disturb, genome destroys the result of (for example, transposon, TILLING, homologous recombination, etc.) etc.Term " plant that knocks out " refers to have at least one acc synthase gene destructive plant at least one cell.

Term " genetically modified " refers to have the plant of the nucleotide sequence of integration, and it includes but not limited to gene, polynucleotide, DNA, RNA etc., compares with the plant that does not import, and they have been imported in the plant.

Term " endogenous " relates to any gene or the nucleotide sequence in the cell Already in.

" transposable element " (TE) or " transposable genetic element " be the dna sequence dna that can in cell, move to another position from a position.The moving of transposable element can occur in episome to episome, episome to karyomit(e), karyomit(e) to karyomit(e) or karyomit(e) to episome.Transposable element is characterised in that, has inverted repeats at their end." transposase " can move in the mediation of enzymatic ground.Structurally,, be with or without genetic sequence and exist, transposable element is divided into " transposon " (" TN ") or " insertion sequence element " (IS element) respectively according to except mobile essential sequence for the factor.Little-transposon or little-IS element generally lack the sequence of the transposase of encoding.

Usually, use term " nucleic acid " or " polynucleotide " with implication well known in the art, it refers to Yeast Nucleic Acid (RNA) or thymus nucleic acid (DNA) polymkeric substance or its analogue, for example, comprises the nucleotide polymer, peptide nucleic acid(PNA) of the modification of Nucleotide etc.In some applications, nucleic acid can be polymkeric substance, and it comprises a plurality of monomer types, for example RNA and DNA subunit.Nucleic acid can be, for example, and the product of karyomit(e) or chromosome segment, carrier (for example, expression vector), expression cassette, naked DNA or RNA polymkeric substance, polymerase chain reaction (PCR), oligonucleotide, probe etc.Nucleic acid can be, for example, strand and/or double-stranded.Except as otherwise noted, except any sequence that spells out, specific nucleic acid sequence of the present invention randomly comprises or the complementary sequence of encoding.

Term " polynucleotide sequence " or " nucleotide sequence " refer to nucleotide sequence or its expression, for example character string of the adjacency in the single nucleic acid.That is to say that based on context, " polynucleotide sequence " is the polymkeric substance (oligonucleotide, DNA, nucleic acid, etc.) of Nucleotide or the character string of representing nucleotide polymer.From any specified polynucleotide sequence, can determine specific nucleic acid or complementary polynucleotide sequence (for example, complementary nucleic acid).

Term " subsequence " or " fragment " are the arbitrary portions of complete sequence.

" phenotype " is the The Characters by the bion of the interaction generation of genetic expression and environment.

" expression cassette " is nucleic acid construct, for example, carrier, for example plasmid, virus vector etc., its can produce transcript and, potentially, by the polypeptide of polynucleotide sequence coding.Expression vector can be produced transcript by body interior or externally in foreign cell, for example, and bacterial cell or vegetable cell, for example plant protoplast of Pei Yanging.According to the promotor of for example selecting, the expression of product can be composing type or induction type.This definition comprises especially and is not translated the antisense that maybe can not be translated, has justice or RNA to disturb or reticent configuration.In the context of expression vector,, then described promotor is called " being operably connected " on polynucleotide sequence if promotor can be regulated the expression of relevant polynucleotide sequence.This term also is applicable to substituting foreign gene construct, the transgenosis of for example expressing or integrate.Similarly, term is operably connected and is equally applicable to relevant with polynucleotide sequence substituting or other transcriptional regulatory sequences, for example enhanser.

If polynucleotide sequence can be transcribed (with montage or the form of montage not) and/or translate into RNA or polypeptide or its subsequence, then polynucleotide sequence being called " can encode " has justice or antisense rna molecule or RNA silence or disturbing molecule or polypeptide.

Pointed as context, " expression of gene " or " expression of nucleic acids " refers to that DNA (may comprise the follow-up modification of polypeptide to the transcribing of RNA (randomly comprise the modification of RNA, for example, montage), RNA to the translation of polypeptide, posttranslational modification) or transcribe and translate the two for example.

Widely, use term " gene " to refer to all nucleic acid relevant with biological function.Gene generally comprises encoding sequence and/or expresses the required adjusting sequence of such encoding sequence.Term " gene " is applicable to special genes group sequence, and by the cDNA or the mRNA of this genome sequence coding.Gene also comprises the nucleic acid fragment of not expressing, and it for example forms other proteic recognition sequences.The adjusting sequence of not expressing comprises promotor and enhanser, and for example transcription factor can be in conjunction with in the above to regulate albumen, causes closing on or near sequence transcribe.

" polypeptide " is the polymkeric substance (for example, peptide or albumen) that comprises 2 or more a plurality of amino-acid residues.Polymkeric substance can comprise non-amino acid whose element in addition, for example mark, quencher, blocking group etc., and can randomly comprise modification, for example glycosylation etc.The amino-acid residue of polypeptide can be natural or non-natural, and can be unsubstituted, unmodified, replacement or modification.

Term " reorganization " refers to by human intervention, the artificially or synthetically (non-natural ground) changed this material (for example, cell, nucleic acid or albumen).Can be on the material in physical environment that is in it or the state, or from it physical environment or state on the material that takes out, change.For example, " nucleic acid of reorganization " produces by recombinant nucleic acid, for example, and in the process of clone, DNA reorganization or in other processes; " polypeptide of reorganization " or " albumen of reorganization " is polypeptide or the albumen of producing by the nucleic acid of express recombinant.The example of cell of reorganization comprises the cell of the polypeptide of the nucleic acid that contains reorganization and/or reorganization.

Term " carrier " refers to breed nucleic acid and/or the instrument of transfer nucleic acid between biological, cell or cellular component.Carrier comprises plasmid, virus, phage, provirus, phasmid, transposon and artificial chromosome etc., and they can self-replicating, maybe can be integrated in the karyomit(e) of host cell.DNA of the DNA of the polynucleotide that carrier can also be naked RNA polynucleotide, naked DNA polynucleotide, be made up of identical intrachain DNA and RNA, many-Methionin-DNA of puting together or RNA, peptide-put together or RNA, liposome-put together etc., they can not self-replicating.

In the context of the present invention, term " isolating " refers to, biologic material for example nucleic acid or albumen do not conform to basically have natural follow it or in its naturally occurring environment component interactional with it.Isolating material randomly is included in the material of not finding with this material in its physical environment (for example cell).For example, if material is in its physical environment (for example cell), then this material has been placed in the position (for example, genome or gene) in non-natural cell for the material of finding in this environment.For example, the nucleic acid of natural generation (for example, encoding sequence, promotor, enhanser; Deng) can become isolating; if the mode that produces by non-natural imports it for (for example, carrier, for example plasmid or virus vector or amplicon) in the non-natural genomic locus of this nucleic acid.Isolating vegetable cell for example, can be in natural surroundings (for example, the whole plant) environment in addition of wild-type plant cell (for example, cell culture system or from cell culture purifying).

Term " variant " about polypeptide refers to, with respect to canonical sequence, has been changed one or more amino acid whose aminoacid sequences.Variant can have " guarding " to be changed, and wherein the amino acid of Qu Daiing has similar structure or chemical property, for example, replaces leucine with Isoleucine.Perhaps, variant can have " nonconservative " to be changed, and for example, replaces glycine with tryptophane.Similarly subtle change can also comprise aminoacid deletion or insertion or the two.Use computer program well-known in the art, for example, DNASTAR software can be found the guidance of not eliminating biology or immunologic competence about determining to replace, insert or to delete which amino-acid residue.Also be described below the example of conservative replacement.

As used herein, " host cell " be by or can be transformed or cells transfected by the polynucleotide sequence of external source." polynucleotide sequence of external source " is defined as finger non-natural sequence in cell, and perhaps it is present in the cell natively, but in different genetic locis, exist or under the guidance of different regulatory elements with different copy numbers.

As used herein, " promotor " comprises and is positioned at the transcriptional start point upstream and participates in RNA polymerase and other proteic identifications and in conjunction with the DNA zone of transcribing with startup." plant promoter " is the promotor of transcribing that can start vegetable cell.Exemplary plant promoter includes but not limited to, from plant, plant virus with comprise those that the bacterium of the gene that can express obtains vegetable cell, described bacterium is edaphic bacillus or root nodule bacterium (Rhizobium) for example.Comprise at the example of growing the promotor under the control and can preferentially be enabled on some tissue (for example leaf, root or seed) or the space such as the promotor of transcribing in the zone of endosperm, embryo or meristem zone.Such promotor is called " tissue-preferred " or " tissue-specific ".The promotor of being regulated on the time can drive be expressed at specified time, for example after pollination O-25 days." cell type-preferred " promotor mainly drives the expression in some cell type in one or more organs, for example, and the dimension tube cell in root or the leaf." induction type " promotor is the promotor under environment control, and can be induction type maybe can go prevent.The example that may influence the envrionment conditions of transcribing of inducible promoter comprises the existence of anaerobic condition or light.Tissue-specific, cell type-promotor specific and induction type have constituted " non--composing type " promotor type." composing type " promotor is in promoters active all under most of envrionment conditionss, in all or nearly all tissue, in all or nearly all etap.

As used herein, " conversion " is when foreign DNA has been directed in the cytolemma, the process of such foreign DNA " conversion " cell.(covalently connecting) can be integrated or do not integrated to foreign DNA in the chromosomal DNA that constitutes cellular genome.In prokaryotic organism and yeast, for example, foreign DNA can maintain on additive type element, for example plasmid.About more high eukaryotic cell, stably transform or cells transfected be such, wherein foreign DNA is integrated in the karyomit(e), thus it can by THE REPLICATION OF CHROMOSOME by daughter cell heredity.Eukaryotic cell is set up clone or clone's's (it is made up of the daughter cell colony of containing foreign DNA) ability, and having confirmed should stability.

The accompanying drawing summary

Fig. 1 has schematically illustrated for example ethene biosynthesizing and the signal conduction gene in the Arabidopis thaliana (Arabidopsis) of plant.

Fig. 2 has illustrated that schematically the acc synthase gene of isolating and mapping and Mu insert sudden change.ACC6 is also referred to as ACS6, and ACC2 is also referred to as ACS2, and ACC7 is also referred to as ACS7.

Fig. 3, little figure A, B, C and D illustrated plant for example the acc synthase of the heterozygosis in the corn knock out.Little figure A and little figure B have illustrated the plant that the acc synthase of wild-type plant Tanaka's heterozygosis knocks out.Leaf (left side of little figure) that little figure C and little figure D have illustrated the plant that the acc synthase from heterozygosis knocks out and comparison from the leaf (right side of little figure) of acc synthase wild-type plant.

Fig. 4 has illustrated with the leaf that knocks out (centre) of wild-type leaf (left side) and heterozygosis and has compared that observed enhanced is protected green proterties in the plant leaf (right side) that the acc synthase that isozygotys knocks out.

Fig. 5, little figure A, B, C, D, E and F have illustrated under collating condition (little figure A, B and C) or drought condition (little figure D, E and F), wild-type (B73 ,+/+) and ACS6 invalid (15, O/O) the leaf transpiration of Tu Bian leaf (little figure A and D), stomatal conductance (little figure B and E) and CO ₂Assimilation (little figure C and F).About collating condition, plant is grown under the condition of better irrigating, and, measured the every leaf of plant in back 40 days of pollination (dap).About drought condition, plant is grown having under the condition of restricting water supply, and in pollination back 40 days, measured the every leaf of plant.Numerical value is being represented the mean value of measuring 6 times.

Fig. 6, little figure A, B and C have illustrated leaf transpiration (little figure A), stomatal conductance (little figure B) and the CO of the leaf of wild-type (B73 ,+/+), ACS2 invalid (7,0/0) and ACS6 invalid (15,0/0) sudden change ₂Assimilation (little figure C).Plant is grown having under the condition of restricting water supply, and in pollination back 40 days, the every leaf of plant measured.Numerical value is being represented the mean value of measuring 6 times.

Fig. 7 has illustrated that schematically the kind system of acc synthase gene sequence analyzes, wherein (A47 (being also referred to as ACS2 or ACC2 in this article), A50 (being also referred to as ACS7 or ACC7 in this article), A65 (being also referred to as ACS6 or ACC6 in this article)) indicating the corn sequence, (AtACS ...) indicating arabidopsis thaliana sequence, (LeACS ...) indicating tomato sequence, (indica type (OsiACS ...) ﹠amp; Round-grained rice type (OsjACS ... )) indicating rice sequence, (TaACS ...) indicating the wheat sequence, and (MaACS ...) indicating the banana sequence.

Fig. 8 has illustrated the acc synthase sequence of A47 (being also referred to as ACS2 or ACC2), A50 (being also referred to as ACS7 or ACC7) and A65 (being also referred to as ACS6 or ACC6) and the peptide consensus sequence comparison of dicotyledons (AtACS, LeACS) and monocotyledons (OsiACS, OsjACS, TaACS and Ma ACS) species.Compare with the strictest standard (identical amino acid), plural number (plurality) is 26.00, and threshold value is 4, and AveWeight is 1.00, and AveMatch is 2.78, and AvMisMatch is-2.25.SEQ ID NO is as follows: A47pep SEQ ID NO:25; A50pep SEQ ID NO:26; Osiacslpep SEQ ID NO:27; Osjacslpep SEQID NO:28; TaACS2pep SEQ ID NO:29; AtACSlpep SEQ ID NO:30; AtACS2pep SEQ ID NO:31; LeACS2pep SEQ ID NO:32; LeACS4pep SEQID NO:33; MaACS1pep SEQ ID NO:34; MaACS5pep SEQ ID NO:35; LeACS1Apep SEQ ID NO:36; LeACSlBpep SEQ ID NO:37; LeACS6pepSEQ ID NO:38; AtACS6pep SEQ ID NO:39; A65pep SEQ ID NO:40; Osiacs2pep SEQ ID NO:41; AtACS5pep SEQ ID NO:42; AtACS9 SEQID NO:43; AtACS4pep SEQ ID NO:44; AtACS8 SEQ ID NO:45; MaACS2pep SEQ ID NO:46; MaACS3pep SEQ ID NO:47; LeACS3pep SEQID NO:48; LeACS7pep SEQ ID NO:49; OsjACS2pep SEQ ID NO:50; OsjACS3 SEQ ID NO:51; OsiACS3pep SEQ ID NO:52; With AtACS7 SEQ IDNO:53.

Fig. 9 has illustrated the acc synthase sequence of A47 (being also referred to as ACS2 or ACC2), A50 (being also referred to as ACS7 or ACC7) and A65 (being also referred to as ACS6 or ACC6) and the peptide consensus sequence comparison of dicotyledons (AtACS, LeACS) and monocotyledons (OsiACS, OsjACS, TaACS, MaACS) species (SEQ ID NO:25-53).Compare with strict standard (similar amino-acid residue), plural number is 26.00, and threshold value is 2, and AveWeight is 1.00, and AveMatch is 2.78, and AvMisMatch is-2.25.

Figure 10 understands the acc synthase sequence of A47 (being also referred to as ACS2 or ACC2), A50 (being also referred to as ACS7 or ACC 7) and A65 (being also referred to as ACS6 or ACC6) and the peptide consensus sequence comparison of dicotyledons (AtACS, LeACS) and monocotyledons (OsiACS, OsjACS, TaACS, MaACS) species (SEQ ID NO:25-53).Compare with lower strict standard (similar a little amino-acid residue), plural number is 26.00, and threshold value is 0, and AveWeight is 1.00, and AveMatch is 2.78, and AvMisMatch is-2.25.

Figure 11 has illustrated the peptide consensus sequence comparison of acc synthase sequence with the sequence (SEQ IDNO:25-3) that is similar to most ACS2 and ACS7 of A47 (being also referred to as ACS2 or ACC2) and A50 (being also referred to as ACS7 or ACC7).Compare with the strictest standard (identical amino acid), plural number is 15.00, and threshold value is 4, and AveWeight is 1.00, and AveMatch is 2.78, and AvMisMatch is-2.25.

Figure 12 has illustrated the peptide consensus sequence comparison of acc synthase sequence with the sequence (SEQ IDNO:25-39) that is similar to most ACS2 and ACS7 of A47 (being also referred to as ACS2 or ACC2) and A50 (being also referred to as ACS7 or ACC7).Compare with strict standard (similar amino-acid residue), plural number is 15.00, and threshold value is 2, and AveWeight is 1.00, and AveMatch is 2.78, and AvMisMatch is-2.25.

Figure 13 has illustrated the peptide consensus sequence comparison of acc synthase sequence with the sequence (SEQ ID NO:40-53) that is similar to most ACS6 of A65 (being also referred to as ACS6 or ACC6).Compare with the strictest standard (identical amino acid), plural number is 14.00, and threshold value is 4, and AveWeight is 1.00, and AveMatch is 2.78, and AvMisMatch is-2.25.

Figure 14 has illustrated the peptide consensus sequence comparison of acc synthase sequence with the sequence (SEQ ID NO:40-53) that is similar to most ACS6 of A65 (being also referred to as ACS6 or ACC6).Compare with strict standard (similar amino-acid residue), plural number is 14.00, and threshold value is 2, and AveWeight is 1.00, and AveMatch is 2.78, and AvMisMatch is-2.25.

Figure 15 has illustrated the peptide consensus sequence comparison of the acc synthase sequence (SEQ ID NO:25-26 and 40) of A47 (being also referred to as ACS2 or ACC2), A50 (being also referred to as ACS7 or ACC7) and A65 (being also referred to as ACS6 or ACC6).Compare with the strictest standard (identical amino acid), plural number is 3.00, and threshold value is 4, and AveWeight is 1.00, and AveMatch is 2.78, and AvMisMatch is-2.25.

Figure 16 has illustrated the peptide consensus sequence comparison of the acc synthase sequence (SEQ ID NO:25-26 and 40) of A47 (being also referred to as ACS2 or ACC2), A 50 (being also referred to as ACS7 or ACC7) and A65 (being also referred to as ACS6 or ACC6).Compare with strict standard (similar amino-acid residue), plural number is 3.00, and threshold value is 2, and AveWeight is 1.00, and AveMatch is 2.78, and AvMisMatch is-2.25.

The little figure A of Figure 17, B, C and D have illustrated total chlorophyll data of the plant that wild-type and acc synthase knock out.Little figure A and B illustrated normal condition (little figure A) or drought condition (little figure B) down the wild-type of growth (B73 ,+/+), ACS2 invalid (0/0) and ACS6 invalid (0/0) plant in the back 40 days total chlorophyll data of pollination.Little figure C has contrasted total chlorophyll of back 40 days wild-type of pollinating (B73 ,+/+) and ACS6 invalid (0/0) plant under normal and drought condition.Little figure D has contrasted total chlorophyll of B73 (wild-type) plant of collecting in 30 and 40 days after pollination.

The little figure A of Figure 18, B, C and D have illustrated the soluble protein data of the plant that wild-type and acc synthase knock out.Little figure A and B illustrated normal condition (little figure A) or drought condition (little figure B) down the wild-type of growth (B73 ,+/+), ACS2 invalid (0/0) and ACS6 invalid (0/0) plant in the back 40 days soluble protein data of pollination.Little figure C has contrasted the soluble protein of back 40 days wild-type of pollinating (B73 ,+/+) and ACS6 invalid (0/0) plant under normal and drought condition.Little figure D has contrasted the soluble protein of B73 (wild-type) plant of collecting in 30 and 40 days after pollination.

Figure 19, little figure A and B have illustrated the ethylene production in the seedling leaf.Little figure A has illustrated various systems.In little figure B, the seedling leaf is pressed the genotype calculating mean value.In little figure C,, detected the wild-type (that is B73) ethylene production of every of plant leaf, 20,30 and 40DAP.Leaf 1 is being represented the leaf of the oldest survival, and leaf 11 is minimus.Carried out 3 times and measured, and report mean value and standard deviation.

The little figure A of Figure 20 has illustrated the chlorophyll data, and little figure B has illustrated that soluble protein and little figure C have illustrated the rubisco expression.In dark processing after 7 days, in adult wild-type (promptly, ACS6/ACS6), in the 3rd the oldest leaf (leaf 3) of acs2/acs2 and acs6/acs6 plant, the 6th the oldest leaf (leaf 6) and the 9th the oldest leaf (leaf 9), measured the level of chlorophyll a+b (little figure A) and soluble protein (little figure B).Irrigate plant every day.In treating processes, irrigate 100 μ M ACC for once a day other acs6/acs6 plant.Also shown irrigate 100 μ M ACC, but keep not having the acs6/acs6 leaf of sheath.The mean value and the standard deviation that have shown 3 kinds of bion leaves.(little figure C) uses rice to resist-the rubisco antiserum(antisera), carried out the western blot analysis of identical leaf.Used soluble protein from the leaf sample of identical fresh weight.

The little figure A-C of Figure 21 has illustrated ACS2 hair clip construct.Little figure A is the synoptic diagram of PHP20600, and this PHP20600 contains the ubiquitin promoter (UBI1ZM PRO) of the expression that can drive ACS2 hair clip (terminal repeat of being made up of TR1 and TR2).RB is representing the edaphic bacillus right border sequence.4126 base pair fragments of 49682 base pair boxes have been described.Little figure B has shown the sequence (SEQ ID NO:54) of ZM-ACS2 TR1, and little figure C has shown the sequence (SEQ ID NO:55) of ZM-ACS2TR2.

The little figure A-C of Figure 22 has illustrated ACS6 hair clip construct.Little figure A is the synoptic diagram of PHP20323, and this PHP20323 contains the ubiquitin promoter (uBI1ZM PRO) of the expression that can drive ACS6 hair clip (terminal repeat of being made up of TR1 and TR2).RB is representing the edaphic bacillus right border sequence.3564 base pair fragments of 49108 base pair boxes have been described.Little figure B has shown the sequence (SEQ ID NO:56) of ZM-ACS6 TR1, and little figure C has shown the sequence (SEQ ID NO:57) of ZM-ACS6TR2.

Little figure A of Figure 23 and B have illustrated ACS2-and the event of ACS6-hair clip construct.Figure among the little figure A has shown the number of each incident of ACS2 hair clip (PHP20600) and the transgenosis copy number of relevant each incident.Figure among the little figure B has shown the number of each incident of ACS6 hair clip (PHP20323) and the transgenosis copy number of relevant each incident.

Describe in detail

" protect " to be the term of the description plant phenotype of commonly using green. Protecting green is the ideal character of commercial farming, for example, and the ideal character relevant with kernel grouting. As in this article described, the green type of guarantor of 5 fundamental differences has been described, comprise type A, B, C, D and E (referring to, for example, Thomas H and Smart CM (1993) Crops that stay green.Annals of Applied Biology123:193-219; With Thomas H and Howarth CJ (2000) Five ways to stay green.Journal of Experimental Botany51:329-337). But, the considerably less description to green biochemical, the physiological or molecular basis of the definite guarantor of heredity is only arranged. Referring to, for example, Thomas and Howarth, the same. The invention provides the molecule of protecting green potentiality/biochemical basis.

Show, many environment can significantly change selection of time and the progress of leaf senescence with physiological condition, and can provide some understandings about the basis of this proterties. In environmental factor, light may be the most obvious, and has thought chronically, places dark by the leaf that will come off, and can induce leaf senescence in many plant species. Referring to, for example, Weaver LM and Amasino RM (2001) Senescence is induced in individually darkened Arabidopsis leaves, but inhibited in whole darkened plants.Plant Physiology127:876-886. Show that also limited nutrition and water availability can be induced leaf senescence prematurely. Referring to, for example, Rosenow DT waits (1983) Drought-tolerant sorghum and cotton germplasm.Agricultural Water Management7:207-222. In the physiology decisive factor, growth regulator plays a crucial role in instructing the leaf senescence program. The change of basic element of cell division level can obviously postpone leaf senescence. For example, plant with prenyltransferase (ipt) (the agrobacterium gene of the rate-limiting step in the biosynthesis of a kind of energy Codocyte mitogen) conversion, when placing old and feeble inducible promoter to control lower time, can cause basic element of cell division production and the green phenotype of strong guarantor of self regulating. Referring to, for example, Gan S and Amasino RM (1995) Inhibition of leaf senescence by autoregulated production of cytokinin.Science270:1986-1988. But, participate in addition other factors of this proterties.

For example, ethene also involved in control leaf senescence (referring to, for example, Davis KM and Grierson D (1989) Identification of cDNA clones for tomato (Lycopersicon esculentum Mill.) mRNAs that accumulate during fruit ripening and leaf sencescence in response to ethylene.Planta179:73-80), and some ethylene production or feel impaired dicotyledon also can show the delay of leaf senescence (referring to, for example, Picton S waits (1993) Altered fruit ripening and leaf senescence in tomatoes expressing an antisence ethylene-forming enzyme transgene.The Plant Journal3:469-481; Grbic V and Bleeker AB (1995) Ethylene regulates the timing of leaf senescence in Arabidopsis.The Plant Journal8:95-102; With, John I waits (1995) Delayed leaf senescence in ethylene-deficient ACC-oxidase antisence tomato plantss:molecular and physiological analysis.The Plant Journal7:483-490), its can obtain by the inhibitor of exogenous application Synthesis pathway and effect phenocopy (referring to, for example, Abeles FB waits (1992)Ethylene in Plant Biology.Academic Press，San Diego，CA)。

Ethene feels to comprise the acceptor of film-location, and for example, in arabidopsis, described acceptor comprises ETR1, ERS1, ETR2, ERS2 and EIN4 (referring to Fig. 1). ETR1, ETR2 and EIN4 are made up of 3 domains: the terminal ethene binding structural domain of N-, the Protein histidine kinase domain of inferring and C-end are accepted domain, and ERS1 and ERS2 lack and accept domain. Based on homology, these genes have been divided into 2 subtribes, wherein ETR1 and ERS1 consist of 1 subtribe, and ETR2, ERS2 and EIN4 consist of another. In arabidopsis, analysis to the mutant of afunction, disclosed the ability that ethene can suppress the signaling activity of these acceptors and their activation CTR1 subsequently, described CTR1 is the negative conditioning agent of the ethylene reaction with mammiferous RAF-type serine/threonine kinase relevant. The ethylene signaling approach shows, ethene is to the combination of acceptor, can suppress it self kinase activity, thereby causes the reduction of CTR1 activity, thereby and cause the active increase of EIN2 (it works in the CTR1 downstream), finally cause the increase of ethylene reaction. Observed grow and to the ethylene receptor family member's of ethylene responses differentiated expression.

, differentiate and analyze that the mutant of Synthesis pathway and cacesthenic arabidopsis and tomato is arranged is valuable at plant growth with developmentally do the time spent at definite ethene. Analysis of Mutants also helps to differentiate and characterize the ethylene signaling approach. Although in dicotyledon (for example, arabidopsis and tomato), identified many ethene mutant, in monocotyledon (for example, rice, wheat and maize), not yet identify such mutant. Described in this article, for example, the ethene mutant of acc synthase defective (for example, in monocotyledon), this acc synthase are first kind of enzymes in the Synthesis pathway approach.

The invention provides the acc synthase polynucleotide sequence from plant, its can regulating plant the green potentiality of guarantor and ethylene production, be exemplified as, for example, SEQ ID NO:1 to SEQ ID NO:6 and SEQ ID NO:10 and for example, one group can regulating plant the green potentiality of guarantor and/or the peptide sequence of ethylene production, for example, SEQ ID NO:7 to SEQ ID NO:9 and SEQ ID NO:11. The present invention also provides the plant cell that knocks out of acc synthase defective and has had the plant that knocks out that protects green potentiality phenotype and the plant that knocks out with male sterility phenotype. Plant of the present invention can have the better feature of regulating the reaction of environmental stress of contrast plant, for example, and the higher tolerance to drought stress. Plant of the present invention can also have the contrast plant higher to other stress (for example, crowded, for example, corn) tolerance. Thereby, can with the higher density of the practice more present than the peasant, plant plant of the present invention. In addition, regulating the time spent of doing in stress the reaction of (for example, arid, crowded, etc.) illustrating regulating action that ethene risen and it in development of plants, plant of the present invention is vital.

Ethene in the plant

Ethene (C₂H ₄) be the plant hormone of gaseous state. It has variable sphere of action, and this can be tissue and/or species specificity. For example, physiologically active includes but not limited to, promote the food maturation, coming off of the leaf of dicotyledonous species and fruit, spend aging, the stem of water plant stretches, the gas compartment in the root (aerating tissue) is grown, the epinastic bending of leaf, stem and stem expansion (relevant with dwarfing), female feature among the curcubit, fruit growth in some species, top dog closure in the stem of yellow, the root hair forms, pineapple family (Bromeliaceae's) blooms, the diageotropism of the stem of yellow and the gene expression of increase are (for example, polygalacturonase, cellulase, chitinase, β-1,3-dextranase etc.). Ripening fruits can discharge ethene naturally, and most plants is organized also can discharge ethene, for example to stress (for example, arid, crowded, disease or pathogen is attacked, temperature (cold or hot) stress, wound, Deng) respond and in ripe and old and feeble organ.

By the approach of the clear and definite SAMe (SAM or Ado Met) that comprises the acc synthase promotion to the conversion of cyclic amino acid 1-amino-cyclopropane-1-carboxylic acid (ACC), can from methionine generate ethene (referring to, for example, Fig. 1). By the circulation MTA, preservation sulphur in this process.

Acc synthase is a kind of aminopherase, and its energy catalysis is by changing into S-adenosylmethionine the rate-limiting step of ACC, formation ethene. Usually, this enzyme require pyridoxal phosphate is as co-factor. Acc synthase is usually encoded in multigene family. Example comprises SEQ ID NO:1-3 as herein described. Each member can show tissue-specific adjusting and/or can be induced with stimulation chemistry by environment. Feature of the present invention comprises acc synthase sequence and subsequence. Be the part of " polynucleotides of the present invention and polypeptide " referring to title herein.

Then, by the effect of acc oxidase (be also referred to as ethene and form enzyme), from the oxidation generation ethene of ACC, wherein hydrogen cyanide is as accessory substance, and it can be detoxified by the β-cyanoalanine synthase. Acc oxidase is encoded in multigene family, and wherein each member can show tissue-specific adjusting and/or can be induced with stimulation chemistry by environment. Anoxic and cobalt ions can suppress the activity of acc oxidase. Acc oxidase is stereospecific, and uses co-factor, for example, and Fe⁺²、O ₂, ascorbate etc. At last, ethene becomes CO by oxidative metabolism₂Or oxirane and ethylene glycol.

Polynucleotides of the present invention and polypeptide

The present invention has characterized the discriminating of gene order, nucleic acid sequence encoding and the amino acid sequence of acc synthase, and described sequence is relevant with the green potentiality of the guarantor of for example plant and/or ethylene production. Sequence of the present invention can by regulating the production of ethene, affect the green potentiality of guarantor of plant.

Polynucleotide sequence of the present invention comprises, for example, and polynucleotide sequence and its subsequence of SEQ ID NO:1 to SEQ ID NO:6 and SEQ ID NO:10 representative. Except the sequence that in appended sequence table, provides especially, the present invention includes on the structure and/or the polynucleotide sequence of height correlation on the function. For example, can the encode peptide sequence of SEQ ID NO:7 to SEQ ID NO:9 and SEQ ID NO:11 representative or the polynucleotides of its subsequence are one embodiment of the invention. In addition, polynucleotide sequence of the present invention comprises can be under stringent condition and the polynucleotide sequence of the polynucleotide sequence hybridization that comprises any or its subsequence (for example, comprising at least 100 in abutting connection with the subsequence of nucleotides) among SEQ ID NO:1-SEQ ID NO:6 and the SEQ ID NO:10. Polynucleotides of the present invention also comprise and are provided for acc synthase sequence and/or the subsequence that RNA produces, and for example, mRNA, antisense RNA, have adopted RNA, RNA reticent and disturb configuration, etc.

Except polynucleotide sequence of the present invention, for example the cited sequence of SEQ ID NO:1 to SEQ ID NO:6 and SEQ ID NO:10, can in the compositions and methods of the invention, use basically identical with polynucleotides of the present invention polynucleotide sequence. Substantially the same or substantially similar polynucleotide sequence is defined as, on the basis of nucleotides one by one, the polynucleotide sequence identical with at least one subsequence of reference polynucleotides (for example, being selected from SEQ ID NO:1-6 and 10). Such polynucleotides can comprise, for example, and with respect to any insertion, disappearance and the replacement in SEQ ID NO:1-6 and 10. For example, such polynucleotides general be selected from having at least about 70% homogeneity with reference to polynucleotides of SEQ ID NO:1 to SEQ ID NO:6 and SEQ ID NO:10 or its subsequence. For example, in 10 nucleotides of contrast in the window, have at least 7 identical with the canonical sequence that is selected from SEQ ID NO:1-6 for example and 10. Frequently, such sequence and canonical sequence (for example, at least one among SEQ ID NO:1 to SEQ ID NO:6 or the SEQ ID NO:10) have at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 98%, at least about 99% or at least about 99.5% homogeneity. Above-mentioned polynucleotides of the present invention (for example, SEQ ID NO:1-6 and 10) subsequence, it for example comprise at least about 5, at least about 10, at least about 15, at least about 20, at least about 25, at least about 50, at least about 75, at least about 100, at least about 500, about 1000 or more in abutting connection with nucleotides or their complon sequence, also be a feature of the present invention. Such subsequence can be, for example, and oligonucleotides, synthetic oligonucleotides for example, the oligonucleotides of separation, or full-length gene or cDNA.

In addition, polynucleotides of the present invention comprise with above-mentioned sequence in any complementary polynucleotide sequence.

Peptide sequence of the present invention comprises, for example, and amino acid sequence and its subsequence of SEQ ID NO:7 to SEQ ID NO:9 and SEQ ID NO:11 representative. Except the sequence that in appended sequence table, provides especially, the present invention includes on the structure and/or the amino acid sequence of height correlation on the function. For example, except amino acid sequence of the present invention, for example the cited sequence of SEQ ID NO:7 to SEQ ID NO:9 and SEQ ID NO:I1, can in the compositions and methods of the invention, use basically identical with polypeptide of the present invention amino acid sequence. Substantially the same or substantially similar amino acid sequence is defined as, on amino acid whose basis one by one, the amino acid sequence identical with at least one subsequence of reference polypeptide (for example, being selected from SEQ ID NO:7-9 and 11). Such polypeptide can comprise, for example, and with respect to any insertion, disappearance and the replacement in SEQ ID NO:7-9 and 11. For example, such polypeptide general be selected from having at least about 70% homogeneity with reference to polypeptide of SEQ ID NO:7 to SEQ ID NO:9 and SEQ ID NO:11 or its subsequence. For example, in 10 amino acid of contrast in the window, have at least 7 identical with the canonical sequence that is selected from SEQ ID NO:7-9 for example and 11. Frequently, such sequence and canonical sequence (for example, at least one among SEQ ID NO:7 to SEQ ID NO:9 or the SEQ ID NO:11) have at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 98%, at least about 99% or at least about 99.5% homogeneity. Above-mentioned polypeptide of the present invention (for example, SEQ ID NO:7-9 and 11) subsequence, it for example comprise at least about 5, at least about 10, at least about 15, at least about 20, at least about 25, at least about 50, at least about 75, at least about 100, at least about 500, about 1000 or more in abutting connection with amino acid, also be a feature of the present invention. The conservative variant of amino acid sequence of the present invention or subsequence also is amino acid sequence of the present invention. Polypeptide of the present invention randomly be immunogenic, enzymatic activity, enzyme deactivation etc.

Serve as interpreter polynucleotide sequence of the present invention when forming the subsequence of polypeptide or polypeptide, and nucleotides changes can cause 49-Phe ,82-Ser,115-Arg,144-Met,145-Asn ,161-Arg,169-Met Human Connective tissue growth factor that guard or nonconservative. Conservative 49-Phe ,82-Ser,115-Arg,144-Met,145-Asn ,161-Arg,169-Met Human Connective tissue growth factor refers to have the interchangeability of the residue of similar side chain on the function. This area is the conservative table that replaces as everyone knows, and it provides similar amino acid on the function. Table 1 has been set forth 6 groups, and they contain each other is the amino acid of " the conservative replacement ". Can obtain other conservative replacement charts in this area, and can use in a similar fashion.

Table 1: conservative replacement group

1	Alanine (A)	Serine (S)	Threonine (T)
					2	Aspartic acid (D)	Glutamic acid (E)
3	Asparagine (N)	Glutamine (Q)
					4	Arginine (R)	Lysine (K)
5	Isoleucine (I)	Leucine (L)	Methionine (M)	Valine (V)
					6	Phenylalanine (F)	Tyrosine (Y)	Tryptophan (W)

Those of ordinary skill in the art can understand that the many conservative replacement of disclosed nucleic acid construct can produce the construct that is equal on the function. For example, as discussed above, because the degeneracy of genetic code, " reticent replacement " (that is, replacement of the change of the polypeptide of encoding of can not cause in the nucleotide sequence) is the feature in secret of the nucleotide sequence that each can coded amino acid. Similarly, in amino acid sequence one or a few amino acid whose " conserved amino acid replacement " are (for example, about 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10% or more) is to replace with the different aminoacids with high similarity matter, and also can easily differentiates to similar to disclosed construct height. Such conservative variant of each open sequence is feature of the present invention.

Obtaining the method for conservative variant of the present invention and more divergent type nucleic acid and polypeptide, is that this area is generally known. Except can the homologue of natural generation, this homologue can be by for example obtaining according to any well-established method screening-gene group or expression library, referring to, for example, Ausubel etc.Current Protocols in Molecular Biology(supplemented through 2004) John Wiley ﹠ Sons, New York (" Ausubel "); Sambrook etc.Molecular Cloning-A Laboratory Manual(the 2nd edition), Vol.1-3, Cold Spring Harbor Laboratory, Cold Spring Harbor, New York, 1989 (" Sambrook ") and Berger and KimmelGuide to Molecular Cloning Techniques，Methods in EnzymologyVolume 152 Academic Press, Inc., San Diego, CA (" Berger "), other variant can be produced by any method of mutagenesis. Many such methods are known in this area, comprise mutagenesis that site-directed mutagenesis, oligonucleotides instruct and many other. For example, site-directed mutagenesis is documented in, for example, and Smith (1985) " In vitro mutagenesis "Ann. Rev.Genet.19:423-462 and list of references wherein, Botstein ﹠ Shortle (1985) " Strategies and applications of in vitro mutagenesis "Science229:1193-1201; And Carter (1986) " Site-directed mutagenesis "Biochem.J.237:1-7. The mutagenesis that oligonucleotides instructs is documented in, for example, Zoller ﹠ Smith (1982) " Oligonucleotide-directed mutagenesis using M13-derived vectors:an efficient and general procedure for the production of point mutations in any DNA fragment "Nucleic Acids Res.10:6487-6500). Use the mutagenesis of the base of modifying to be documented in, for example, Kunkel (1985) " Rapid and efficient site-specific mutagenesis without phenotypic selection "Proc. Natl.Acad.Sci.USA82:488-492 and Taylor etc. (1985) " The rapid generation of oligonucleotide-directed mutations at high frequency using phosphorothioate-modified DNA "Nucl.Acids Res.13:8765-8787. Use the mutagenesis of duplex DNA jaggy to be documented in, for example, Kramer etc. (1984) " The gapped duplex DNA approach to oligonucleotide-directed mutation construction "Nucl.Acids Res.12:9441-9460). Point mispairing mutagenesis is documented in, for example, and Kramer etc. (1984) " Point Mismatch Repair "Ce1138:879-887). The mutagenesis of double-stranded destruction is documented in, for example, Mandecki (1986) " Oligonucleotide-directed double-strand break repair in plasmids of Escherichia coli:a method for site-specific mutagenesis "Proc.Natl.Acad.Sci.USA, 83:7177-7181 and Arnold (1993) " Protein engineering for unusual environments "Current Opinion in Biotechnology4:450-455). Use the mutagenesis of the host strain of repair-deficiency to be documented in, for example, Carter etc. (1985) " Improved oligonucleotide site-directed mutagenesis using M13 vectors "Nucl.Acids Res.13:4431-4443. The mutagenesis synthetic by total gene is documented in, for example, and Nambiar etc. (1984) " Total synthesis and cloning of a gene coding for the ribonuclease S protein "Science223:1299-1301. DNA reorganization is documented in, for example, and Stemmer (1994) " Rapid evolution of a protein in vitro by DNA shuffling "Nature370:389-391, and Stemmer (1994) " DNA shuffling by random fragmentation and reassembly:In vitro recombination for molecular evolution. "Proc.Natl.Acad.Sci.USA 91：10747-10751。

Method above many is documented in additionMethods in EnzymologyAmong the Volume 154, it has also described useful about carry out the control of fault-locating problem with various method of mutagenesis. Can also commercially obtain the kit for mutagenesis, library construction and other multiple production methods. For example, kit can available from, for example, Amersham International plc (Piscataway, NJ) (for example, Eckstein method above using), Bio/Can Scientific (Mississauga, Ontario, Canada), Bio-Rad (Hercules, CA) (for example, Kunkel method above using), Boehringer Mannheim Corp. (Ridgefield, Connecticut), Clonetech Laboratories of BD Biosciences (Palo Alto, CA), DNA Technologies (Gaithersburg, MD), Epicentre Technologies (Madison, WI) (for example, 5 prime, 3 prime kits); Genpak Inc. (Stony Brook, New York), Lemargo Inc (Toronto, Canada), Invitrogen Life Technologies (Carlsbad, California), New England Biolabs (Beverly, MA), Pharmacia Biotech (Peapack, New Jersey), Promega Corp. (Madison, WI), QBiogene (Carlsbad, CA) and Stratagene (La Jolla, CA) (for example, QuickChange^TMSite-directed mutagenesis kit and Chameleon^TMDouble-stranded, site-directed mutagenesis kit).

Determine sequence relation

Nucleic acid of the present invention and amino acid sequence comprise, for example, and those that in SEQ ID NO:1 to SEQ ID NO:11, provide and its subsequence, and similar sequence. By many methods, such as percentage homogeneity, hybridization, immunology ground etc. can be determined similar sequence objectively. Can obtain and well-known many methods for determining the relation (for example, homogeneity, similitude and/or homology) between 2 or the more sequence in this area. These methods comprise for example manual comparison, computer assisted sequence alignment and its combination. Can obtain at large perhaps can being generated by the technical staff be used to the many algorithms that carry out sequence alignment (they normally computer carry out). These methods comprise, for example, and Smith and Waterman (1981)Adv.Appl.Math.2:482 local homology's algorithm; Needleman and Wunsch (1970)J.Mol.Biol.The sequence analysis algorithm of 48:443; Pearson and Lipman (1988)Proc.Natl.Acad.Sci.(USA)The similarity searching method of 85:2444; And/or (for example carry out these algorithms by computer, GAP, BESTFIT, FASTA and TFASTA in the Wisconsin Genetics Software Package Release 7.0, Genetics Computer Group, 575 Science Dr., Madison, WI).

For example, use the BLAST algorithm to carry out the software that sequence homogeneity (and sequence similarity) is analyzed, be documented in (1990) such as AltschulJ.Mol.Biol.215:403-410. This software can obtain publicly, for example, obtains from NCBI (National Center for Biotechnology Information) on the ncbi.nlm.nih.gov World Wide Web. This algorithm comprises, the short code of length W by the identification search sequence at first, when with database sequence in equal length code when comparing, it can mate or satisfy some on the occasion of threshold value mark T, identifies high sub-sequence to (HSP). T refers to the neighbor code score threshold. The neighbor code hit results that these are initial can work to start the seed of searching for, to find the longer HSP that contains them. Then, extend the code hit results along each sequence to both direction, as long as can increase accumulation comparison mark as far as possible far. For nucleotide sequence, operation parameter M is (to the right award mark of coupling residue; Always＞0) and N (to the punishment mark of mispairing residue; Always＜0), can calculate running summary of the points scored. For amino acid sequence, with dividing matrix number to calculate running summary of the points scored. When following situation occurring, the code hit results that stops each direction is extended: accumulation comparison mark has reduced amount X from its maximum implementation value; Since one or more negative-accumulation of mark residue comparison, running summary of the points scored reach 0 or below; Perhaps reached the end of each sequence. BLAST algorithm parameter W, T and X have determined sensitivity and the speed of comparison. BLASTN program (for nucleotide sequence) is used following default value: code length (wordlength) is 11 (W), and desired value (E) is 10, and cutoff is 100, M=5, N=-4 and 2 chains of contrast. For amino acid sequence, BLASTP (BLAST albumen) program is used following default value: code length (W) is 3, desired value (E) be 10 and BLOSUM62 divide matrix number (referring to, Henikoff Henikoff (1989)Proc. Natl.Acad.Sci.USA 89：10915)。

In addition, the BLAST algorithm can carry out 2 similitudes between the sequence statistical analysis (referring to, for example, Karlin ﹠ Altschul (1993)Proc.Nat’l.Acad.Sci. uSA90:5873-5787). A kind of similarity measurement that the BLAST algorithm provides is minimum summation probability (p (N)), and the latter can indicate the accidental probability that coupling takes place between 2 nucleotides or the amino acid sequence. For example, if will test nucleic acid and compare with reference to nucleic acid, the minimum summation probability that obtains less than about 0.1 or less than about 0.01 and or even less than about 0.001, then think this nucleic acid similar to canonical sequence (and, therefore, in context, homology).

Another example of useful sequence alignment algorithm is PILEUP. PILEUP can use comparison progression, paired, sets up a plurality of sequence alignments from one group of correlated series. It can also draw tree, and it shows the cluster relation that is used for setting up comparison. PILEUP can use Feng ﹠ Doolittle (1987)J.Mol.Evol.The simplification of the progression comparison method of 35:351-360. The method of using is similar to the described method of Higgins ﹠ Sharp (1989) CABIOS5:151-153. This program can be compared, and for example, reaches the sequence of 300 maximum length 5,000 letters most. Multiple comparison method produces the two aligned sequences of cluster since the paired comparison of 2 similar sequences. Then, this can be clustered and compare with the maximally related sequence of the next one or the sequence cluster compared. By the paired comparison of 2 single sequences of simple extension, can compare 2 bunches of sequences. Paired comparison by a series of progressions can realize final comparison. This program also can be used for drawing the tree representation method of arborescence or cluster relation. By specify particular sequence and their amino acid or nucleotide coordinate for the sequence contrast district, can move this program.

Other examples that are applicable to the algorithm of multiple dna or amino acid sequence comparison are CLUSTALW program (Thompson, J.D. etc. (1994)Nucl.Acids.Res.22:4673-4680). CLUSTALW can carry out multiple paired contrast between sequence set, and can on the basis of homology, they be assembled into multiple ratio centering. Open and the breach of breach (Gap) extends punishes it can is respectively for example 10 and 0.05. For the amino acid comparison, can be with the BLOSuM algorithm as the albumen weight matrix. Referring to, for example, Henikoff and Henikoff (1992)Proc.Natl.Acad.Sci.USA 89：10915-10919。

Nucleic acid hybridization

By having " hybridization " between the single-chain nucleic acid (or its strand district) complementary or the polynucleotide sequence that part is complementary, also can estimate the similitude between the acc synthase nucleic acid of the present invention.

Hybridization is the measurement of the physical interconnection between the nucleic acid, described nucleic acid generally in solution, perhaps have one nucleic acid chain-immobilized on solid support, for example, film, pearl, chip, filter etc. On the basis of the physical-chemistry force of many better signs, nucleic acid hybridization takes place in such as hydrogen bond action, solvent repulsion, base stacking etc. Many nucleic acid hybridizations are well-known in the art. About the widely guidance of nucleic acid hybridization, referring to Tijssen (1993)Laboratory Techniques in Biochemistry and Molecular Biology--Hybridization with Nucleic Acid Probes, part I, chapter 2, " Overview of principles of hybridization and the strategy of nucleic acid probe assays, " (Elsevier, New York), and Ausubel etc.Current Protocols in Molecular Biology(supplemented through 2004) John Wiley ﹠ Sons, New York (" Ausubel "); Sambrook etc.Molecular Cloning-A Laboratory Manual(the 2nd edition), Vol.1-3, Cold Spring Harbor Laboratory, Cold Spring Harbor, New York, 1989 (" Sambrook ") and Berger and KimmelGuide to Molecular Cloning Techniques，Methods in EnzymologyVolume 152 Academic Press, Inc., San Diego, CA (" Berger "). Hames and Higgins (1995)Gene Probes 1, IRL Press at Oxford University Press, Oxford, England (Hames and Higgins 1) and Hames and Higgins (1995)Gene Probes 2, IRL Press at Oxford University Press, Oxford, England (Hames and Higgins 2) provide DNA and RNA, comprise synthetic, mark, detection and the quantitative details of oligonucleotides.

According to the theoretical melting temperature (T between nucleic acid complementation and that part is complementary_m), selected to be applicable to the condition of being hybridized, comprise discrepant hybridization. Under specific one group of condition, for example, solvent composition, ionic strength etc., T_mIt is duplex between the hybrid nucleic acid chain temperature when 50% sex change takes place. That is to say T_mThe temperature that the mid point that corresponding and helical form change to random coil is corresponding; For long nucleotide sequence, it depends on that the length of polynucleotides, nucleotides form and ionic strength.

After the hybridization, can remove the not nucleic acid of hybridization, result as required, the stringency that can regulate it by the series washing. Low stringency wash conditions (for example, using higher salt and lower temperature) can improve sensitivity, but can produce nonspecific hybridization signal and high background signal. Higher stringency wash conditions (for example, use lower salt and Geng Gao near T_mTemperature) can reduce background signal, the specific signal of general main reservation. Also referring to, Rapley, R. and Walker, J.M. compiles,Molecular Biomethods Handbook (Humana Press，Inc.1998)。

In the context of nucleic acid hybridization experiment, for example in DNA and the RNA blot hybridization, " strict hybridization wash conditions " or " strict condition " are sequence dependent, and are different under different ambient parameters. About the widely guidance of nucleic acid hybridization, referring to Tijssen (1993), the same and Hames and Higgins 1 and Hames and Higgins 2, the same.

In DNA or RNA trace, the example with the stringent hybridization condition of hybridizing above the complementary nucleic acid of 100 complementary residues that carries out at filter paper is: 2x SSC, 50% formamide at 42 ℃, is hybridized spend the night (for example, about 20 hours). The example of strict wash conditions is: 0.2xSSC is in 65 ℃ of washings 15 minutes (about the description of SSC buffer solution, referring to top Sambrook). Usually, wash to remove owing to behind the signal that the probe of remaining not hybridization forms, determine the washing of stringency in low stringency. The example of low stringency washing is 2x SSC, room temperature (for example, 20 ℃, carrying out 15 minutes).

Usually, in specific hybridization assays, be the signal to noise ratio of at least 2.5x-5x (and generally higher) that observes with uncorrelated probe, can indicate the detection of specific hybrid. In the context of the present invention, detect the minimum strict hybridization between 2 sequences, the relatively strong structural similarity with the nucleic acid of the acc synthase that for example provides in the sequence table of this paper can be provided.

For the purposes of the present invention, usually, will " highly strict " hybridize and wash conditions is selected in than the pyrolysis chain temperature (T of particular sequence at given ionic strength and pH_m) low about 5 ℃ or still less (as described below, as in comparative terms, to may also be referred to as highly strict condition). Under strict or highly strict condition, can identify the target sequence closely related or identical with target nucleotide sequence (for example, " probe "). Low stringency is corresponding with low complementary sequence.

For example, when definite strict or highly strict hybridization (or even stricter hybridization) and wash conditions, (for example increase gradually the stringency of hybridization and wash conditions, by in hybridization or washing, rising temperature, for example concentration of formamide of salinity, rising detergent concentration and/or rising organic solvent that reduces), until satisfy the standard of a group selection. For example, increase gradually the stringency of hybridization and wash conditions, until (for example comprise one or more polynucleotide sequences of the present invention, be selected from SEQ ID NO:1 to SEQ ID NO:6 and SEQ ID NO:10 or its subsequence and/or its complementary polynucleotide sequence) probe can be (same in conjunction with the complementary target of perfect matching, it is to comprise the nucleotide sequence of the one or more SEQ of being selected from ID NO:1 to SEQ ID NO:6 and SEQ ID NO:10 and its complementary polynucleotide sequence or the nucleic acid of subsequence), as required, its signal to noise ratio is at least 2.5x of viewed signal to noise ratio in the hybridization of probe and unmatched target, and randomly 5x or 10x or 100x or higher.

Use is derived from the subsequence of the nucleic acid of the acc synthase polypeptide of the present invention of encoding, and can obtain new target nucleic acid; Such target nucleic acid also is a feature of the present invention. For example, such target nucleic acid comprises can be under stringent condition and the sequence of oligonucleotide probe hybridization, and described oligonucleotide probe correspondence unique subsequence of any polynucleotides of the present invention, for example, and SEQ ID NO:1-6,10 or its complementary series; Randomly can encode unique subsequence of any polypeptide of the present invention of this probe, for example, SEQ ID NO:7-9 and 11.

For example, select hybridization conditions, under this condition, with the perfect complementary target oligonucleotide of oligonucleotide probe can with this Probe Hybridization, its signal to noise ratio be target oligonucleotide and negative control incomplementarity nucleic acid hybridization signal to noise ratio at least about 5-10x.

By improving the stringency of hybridization conditions, can realize higher signal to noise ratio, thereby obtain about 15x, 20x, 30x, 50x or higher ratio. Concrete signal depends on the mark that uses in related assays, for example, and fluorescence labeling, colorimetric mark, radioactive label etc.

Carrier, promoter and expression system

Nucleic acid of the present invention can be any in numerous forms, for example expression cassette, carrier, plasmid or linear nucleic acid sequence. For example, carrier, plasmid, clay, bacterial artificial chromosome (BAC), YAC (yeast artificial chromosome), bacteriophage, virus and nucleic acid fragment can comprise acc synthase nucleotide sequence or its subsequence of wishing in the transfered cell. These nucleic acid constructs can also comprise promoter, enhancer, polylinker, regulatory gene etc.

Thereby, the invention still further relates to, for example, comprise the carrier of polynucleotides of the present invention, integrate the host cell of carrier of the present invention and produced polypeptide of the present invention by recombinant technique.

According to this aspect of the present invention, carrier can be, for example, and plasmid vector, strand or double-stranded phage vector or strand or double-stranded RNA or dna viral vector. By well-known with the technology in DNA and the RNA transfered cell, can be with such carrier as in polynucleotides, the preferred DNA transfered cell. In the situation of bacteriophage and viral vectors, by well-known infection and transduction technology, can also and preferably with carrier as packing or the viral transfered cell of involucrum in. Viral vectors can be reproducible or replication defective. Under latter event, can only in complementary host cell virus breeding take place usually.

In some aspects, in carrier, preferably, be used for expressing those of polynucleotides of the present invention and polypeptide. Usually, such carrier comprises the effective cis acting of the expression among host control zone, and it is operably connected on the polynucleotides that will express. Suitable trans-acting factor is provided by the host, is provided by the carrier of complementation, or is provided by the carrier self that imports behind the host.

In the preferred embodiment of at that point some, carrier can provide preferred expression. Preferred expression like this can be induction type expression, time restriction expression or be limited in the cell of some type in the highest flight expression or above any combination. In the carrier of induction type, particularly preferably be, can be by the carrier of easy-to-operate environmental factor (for example temperature and nourishing additive agent) abduction delivering. Being applicable to many carriers of this aspect of the present invention, being included in the composition type and expression vector induction type that uses in protokaryon and the eucaryon host, is the well-known and conventional use of those skilled in the art. Such carrier comprises, inter alia, chromosomal, episomal and viral-carrier of deriving, for example, be derived from bacterial plasmid, bacteriophage, transposons, yeast episome, insertion element, the yeast chromosomal element, virus (baculoviral for example, papovavirus is SV40 for example, vaccinia virus, adenovirus, fowlpox virus, pseudorabies virus and retrovirus) carrier, carrier with the combination that is derived from them, for example be derived from plasmid and bacteriophage genic those, for example clay and phasmid and be used for the binary vector of the conversion of agrobacterium-mediation. May be used to the expression according to this aspect of the present invention.

The carrier that function is arranged in plant can be the binary plasmid that is derived from edaphic bacillus.Such carrier can transformed plant cells.These carriers contain a left side and right border sequence, the latter be integrated in host (plant) karyomit(e) necessary.During bottom line, between these border sequences, be the gene (or other polynucleotide sequences of the present invention) that will express, general under the control of regulatory element.In one embodiment, also comprise selective marker and reporter gene.In order easily to obtain the carrier of q.s, the bacterium starting point that can use permission in intestinal bacteria (E.coli), to duplicate.

As an example, below providing can be from the commercial carrier that obtains.In carrier, be used for bacterium preferably, pQE70, pQE60 and pQE-9 can be available from Qiagen; PBS carrier, Phagescript carrier, Bluescript vector, pNH8A, pNH16a, pNH18A, pNH46A can be available from Stratagene; With ptrc99a, pKK223-3, pKK233-3, pDR540, pRIT5, can be available from Pharmacia.In preferred eukaryotic vector, be pWLNEO, pSV2CAT, pOG44, pXT1 and pSG, can be available from Stratagene; With pSVK3, pBPV, pMSG and pSVL, can be available from Pharmacia.Useful plant binary vector comprises BIN19 and its derivative, can be available from Clontech.As just to sell and explanation well-known carrier on the available many markets that are used for according to this aspect of the present invention of those skilled in the art, these carriers have been listed.Should be understood that of the present invention and aspect this, can use for example to be applicable to any other plasmid or the carrier that in the host, imports, keeps, breeds or express polynucleotide of the present invention or polypeptide, disclose wherein some in more detail below.

Usually, expression construct can contain transcription initiation and termination site, and when this makes up the physical efficiency coded polypeptide, also contains the ribosome bind site that is useful on translation in the zone of transcribing.The encoding section branch of the mature transcript of being expressed by construct is beginning the terminator codon that the place comprises translation initiation AUG and suitably is positioned at the polypeptide end that will translate.

In addition, construct can contain the control region, and it can regulate and cause expression.Usually, according to many methods commonly used, such zone can be transcribed by control and be moved, for example transcription factor, repressor binding site and termination signal, inter alia.Advance for the protein excretion that makes translation in chamber, periplasmic space or the born of the same parents' external environment of endoplasmic reticulum, suitable secretion signal can be integrated in the polypeptide expressed.These signals can be endogenous to polypeptide, and perhaps they can be allogenic signals.

By enhancer sequence is inserted in the carrier, can strengthen higher eucaryote transcribing to DNA of the present invention (for example, energy coded polypeptide).Enhanser is the cis-acting elements of DNA, about usually 10-300 base pair, and it can work to strengthen the transcriptional activity of promotor in specific host cell type.The example of enhanser comprises the SV40 enhanser, and it is located at the rear side (lateside) of the replication orgin of base pair 100-270, and the sub-enhanser of cytomegalovirus early promoter is at the polyomavirus enhanser and the adenovirus enhanser of the rear side of replication orgin.Other enhansers of transcribing that are used to strengthen the dna fragmentation of importing in the present invention comprise, inter alia, virus enhancer, as at Odell etc., Plant Mol.Biol.10:263-72 those in (1988) described 35S promoter and from Fromm etc., Plant CellThe enhanser of the described opine gene of 1:977 (1989).The enhanser influence is included in the tissue specificity and/or the temporal of the expression of the sequence in the carrier.

The terminator also can be by stopping transcribing promoting effective expression at suitable point.Be used to realize that useful terminator of the present invention includes but not limited to, pinII (referring to An etc., Plant Cell115-122 (1989)), glb1 (referring to Genbank registration number L22345), gz (referring to the gzw64a terminator, Genbank registration number S78780) and 1 (1): from the no terminator of edaphic bacillus.The terminator can be natural about the promotor nucleotide sequence, can be natural about target dna sequence, maybe can be derived from other sources.For example, other can obtain from the Ti-plasmid of Agrobacterium tumefaciens the terminator easily, for example octopine synthase and nopaline synthase terminator.Also referring to Guerineau etc. (1991) Mol.Gen.Genet.262:141-144; Proudfoot (1991) Cell 64:671-674; Sanfacon etc. (1991) Genes Dev.5:141-149; Mogen etc. (1990) Plant Cell2:1261-1272; Munroe etc. (1990) Gene 91:151-158; Ballas etc. 1989) NucleicAcids Res.17:7891-7903; With (1987) Nucleic Acids Res.15:9627-9639 such as Joshi.

In the known eukaryotic promoter that is applicable to general expression, promotor (for example those of Rous sarcoma virus (" RSV ")), metallothionein promoter (for example mouse metallothionein(MT)-I promotor) and the various plant promoter (for example sphaeroprotein-1) of CMV immediate early promoter, HSV thymidine kinase promoter, early stage and late period SV40 promotor, retrovirus LTR arranged.In the time can obtaining, can use the natural promoter of acc synthase gene.The representative of prokaryotic promoter comprises phage PL promotor, and intestinal bacteria lac, trp and tac promotor are only enumerated the several examples in the well-known promotor.

The integration of isolating or reorganization the plant or the vegetable cell of acc synthase nucleic acid be a feature of the present invention.Basically according in known to the skilled many modes in molecular biology of plants field any, include but not limited to method as herein described, can realize the conversion of vegetable cell and protoplastis.Referring to, usually, Methods in Enzymology, Vol. 153(Recombinant DNA Part D) Wu and Grossman (volume) 1987, AcademicPress, incorporated by reference in this article.As used herein, term " conversion " refers to, by importing nucleotide sequence, for example, " allogenic ", " external source " or " external " nucleotide sequence change the genotype of host plant.Heterologous nucleic acid sequence does not need to be derived from different sources, but to a certain extent, the outside of the cell that it Already in imports.

Except Berger, Ausubel and Sambrook, the general reference useful about vegetable cell clone, cultivation and regenerated comprises: Jones (volume) (1995) Plant Gene Transfer and Expression Protocols--Methods in Molecular Biology, Volume 49Humana Press Towata NJ; Payne etc. (1992) Plant Cell and Tissue Culture in Liquid SystemsJohn Wiley ﹠amp; Sons, Inc.New York, NY (Payne); With Gamborg and Phillips (volume) (1995) Plant Cell, Tissue and Organ Culture; Fundamental MethodsSpringer Lab Manual, Springer-Verlag (BerlinHeidelberg New York) (Gamborg).Many cell culture mediums are documented in Atlas and Parks (volume) The Handbook of Microbiological Media(1993) CRCPress, Boca Raton, FL (Atlas).About other information of culture plant cell, can in the commercial document that obtains, find, for example from Sigma-Aldrich, Inc (StLouis, MO) Life Science Reserch Cell Culture Catalogue(1998) (Sigma-LSRCCC) and, for example, also from Sigma-Aldrich, Inc (StLouis, MO) Plant Culture CatalogueAnd appendix (1997) (Sigma-PCCS).About other details of culture plant cell, referring to Croy, (volume) (1993) Plant Molecular BiologyBios Scientific Publishers, Oxford, U.K.Be the part of " Plant Transformation " also referring to title in this article.

In one embodiment of the invention, prepared the carrier of reorganization, it comprises one or more acc synthase nucleic acid or its subsequences that are applicable to transformed plant cells, for example, is selected from SEQ ID NO:1 to SEQ ID NO:6 or SEQ ID NO:10.In another embodiment, acc synthase RNA that using easily to encode needs or albumen or its subsequence are (for example, be selected from SEQ ID NO:7 to SEQ ID NO:9 or SEQ ID NO:11) nucleotide sequence, make up the recombinant expression cassettes that can import in the plant that needs.In the context of the present invention, expression cassette generally comprises the acc synthase nucleotide sequence or the subsequence of selection, its be in be operably connected to promoter sequence and other transcribe with translation initiation regulate on the sequence the RNA configuration (for example, antisense, there are the justice, RNA reticent or disturb configuration etc.), described sequence is enough to instruct acc synthase RNA configuration sequence transcribing in the destination organization of plant transformed (for example, complete plant, leaf, flower pesticide, root etc.).

Usually, the concrete promotor of using in the expression cassette of plant depends on the target purposes.In numerous promotors any can be suitable.For example, it is combined or to be used for other promotors that plant expresses with nucleic acid and composing type, induction type, tissue-specific (tissue-preferably).For example, can advantageously use the plant promoter of strong or weak composing type, it can instruct the expression of acc synthase RNA configuration sequence in all plant tissues.Under most of envrionment conditionss and growth or cytodifferentiation state, such promotor is activated.The example of the promotor of composing type comprise 1 of Agrobacterium tumefaciens '-or 2 '-promotor (referring to, for example, O ' Grady (1995) Plant Mol.Biol.29:99-108).The other plant promotor comprises ribulose-1,5-bisphosphate, 3-bisphosphate carboxylase small subunit promotor, phaseolin promoter, alcoholdehydrogenase (Adh) gene promoter (referring to, for example, Millar (1996) Plant Mol.Biol.31:897-904), the sucrose synthase promotor, (alpha-tubulin promotor, actin promoter, for example the Arabidopis thaliana actin gene promotor (referring to, for example, Huang (1997) Plant Mol.Biol.1997 33:125-139), cab, PEPCase, R gene composite, from the ACTll (Huang etc. of Arabidopis thaliana Plant Mol.Biol.33:125-139 (1996)), from the Cat3 of Arabidopis thaliana (Zhong etc., Mol.Gen. Genet.251:196-2O3 (1996)), from the gene (Solocombe etc. (1994) of the stearyl of the encoding-acyl carrier protein desaturase of colea (Brassica napus) Plant Physiol.104:1167-1176), from the GPc1 (Martinez etc. (1989) of corn J.Mol.Biol208:551-565), from the Gpc2 of corn (Manjunath etc. (1997), Plant Mol.Biol.33:97-112) with from other transcription initiation regions of various plant genes known to the skilled.Also referring to Holtorf (1995) " Comparisonof different constitutive and inducible promoters for theoverexpression of transgenes in Arabidopsis thaliana, " Plant Mol.Biol.29:637-646.Also can use from the E8 gene (referring to, Deikman and Fischer (1988) EMBO J7:3315) and the promoter sequence of other genes, and to the promotor of unifacial leaf species specificity (for example, McElroy D. waits (1994.) Foreign gene expression in transgenic cereals. Trends Biotech., 12:62-68).The promotor of other composing types comprises, for example, and the promotor of disclosed other composing types in the core promoter of Rsyn7 promotor and WO 99/43838 and the U.S. Patent number 6,072,050; Core CaMV 35S promoter (Odell etc. (1985) Nature313:810-812); Rice Actin muscle (McElroy etc. (1990) Plant Cell2:163-171); Ubiquitin (Christensen etc. (1989) Plant Mol. Biol.12:619-632 with (1992) such as Christensen Plant Mol. Biol.18:675-689); PEMU (Last etc. (1991) Theor.Appl.Genet.81:581-588); MAS (Velten etc. (1984) EMBO J.3:2723-2730); ALS promotor (U.S. Patent number 5,659,026) etc.Yet the promotor of other composing type comprises, for example, and U.S. Patent number 5,608,149; 5,608,144; 5,604,121; 5,569,597; 5,466,785; 5,399,680; 5,268,463; 5,608,142; With 6,177,611.

Except the promotor that this paper points out, can use the promotor of the bacterial origin that can in plant, move in the present invention.They comprise, for example, and octopine synthase promoter, nopaline synthase promoter and be derived from other promotors of Ti-plasmids.Referring to, Herrera-Estrella etc. (1983) Nature303:209.Also can use viral promotors.The example of viral promotors comprises 35S and the 19S RNA promotor of cauliflower mosaic virus (CaMV).Referring to, Odell etc., (1985) Nature313:810; And Dagless (1997) Arch.Virol.142:183-191.Come other examples of constitutive promoter of the virus of self energy infection plant to comprise the promotor of tobacco mosaic virus (TMV); Cauliflower mosaic virus (CaMV) 19S and 35S promoter or figwort mosaic virus promotor, for example, radix scrophulariae mosaic virus 35 S promoter (referring to, for example, Maiti (1997) Transgenic Res.6:143-156), etc.Perhaps,, comprise that sequential analysis, enhanser or promotor catch etc. by several different methods known in the art, can be from virus, bacterium or plant origin identify the new promotor with useful feature arbitrarily.

Tissue-preferred (tissue-specific) promotor and enhanser can be used for the in-house enhanced genetic expression of target specified plant.Tissue-preferred (tissue-specific) promotor comprises, for example, is documented in the following document those: Yamamoto etc. (1997) Plant J.12 (2): 255-265; Kawamata etc. (1997) Plant Cell Physiol.38 (7): 792-803; Hansen etc. (1997) Mol.Gen Genet.254 (3): 337-343; Russell etc. (1997) Transgenic Res.6 (2): 157-168; Rinehart etc. (1996) Plant Physiol.112 (3): 1331-1341; (1996) such as Van Camp Plant Physiol.112 (2): 525-535; Canevascini etc. (1996) Plant Physiol.112 (2): 513-524; Yamamoto etc. (1994) Plant Cell Physiol.35 (5): 773-778; Lam (1994) Results Probl.Cell Differ.20:181-196; Orozco etc. (1993) Plant Mol Biol.23 (6): 1129-1138; Matsuoka etc. (1993) Proc Natl.Acad.Sci.USA90 (20): 9586-9590; With (1993) such as Guevara-Garcia Plant J.4 (3): 495-505.If desired, can modify such promotor, to carry out weak expression.

In certain embodiments, can use the specific promotor of leaf, for example, pyruvic acid from C4 plant (corn), orthophosphate dikinase (PPDK) promotor, cab-m1 Ca+2 promotor from corn, the gene promoter (Atmyb5) that Arabidopis thaliana (Arabidopsis thaliana) myb-is relevant, carboxydismutase (RBCS) promotor (for example, tomato RBCS1, RBCS2 and RBCS3A gene, it is expressed in the seedling of leaf and light-growth, and RBCS1 and RBCS2 express in developmental tamato fruit, and/or carboxydismutase promotor, it almost expresses in the mesophyll cell of blade and leaf sheath exclusively high-levelly, etc.) etc.Referring to, for example, Matsuoka etc., (1993) Tissue-specificlight-regulated expression directed by the promoter of a C4gene, maize pyruvate, orthophosphate dikinase, in a C3 plant, rice PNAS USA90 (20): 9586-90; (2000) Plant Cell Physiol.41 (1): 42-48; (2001) Plant Mol.Biol.45 (1): 1-15; Shiina, T. etc., (1997) Identification of Promoter Elements involved in thecytosolic Ca+2 mediated photoregulation of maize cab-m1expression, Plant Physiol.115:477-483; Casal (1998) Plant Physiol.116:1533-1538; Li (1996) FEBS Lett.379:117-121; Busk (1997) Plant J.11:1285-1295; And Meier (1997) FEBS Lett.415:91-95; And Matsuoka (1994) Plant J.6:311-319.Other leaves-specific promotor comprises, for example, and Yamamoto etc. (1997) Plant J.12 (2): 255-265; Kwon etc. (1994) Plant Physiol.105:357-67; Yamamoto etc. (1994) Plant Cell Physiol.35 (5): 773-778; Gotor etc. (1993) Plant J.3:509-18; Orozco etc. (1993) Plant Mol. Biol.23 (6): 1129-1138; With (1993) such as Matsuoka Proc.Natl.Acad. Sci.USA90 (20): 9586-9590.

In certain embodiments, can use senescence-specific promotor (for example, the activated tomato promotor in the old and feeble and process that comes off at fruit maturation, leaf, the corn promotor of gene that can encoding cysteine protease, etc.).Referring to, for example, Blume (1997) Plant J.12:731-746; Griffiths etc., (1997) Sequencing, expressionpattern and RFLP mapping of a senescence-enhanced cDNA fromZea Mays with high homology to oryzain gamma and aleurain, Plant Mol.Biol.34 (5): 815-21; Zea mays partial seel gene forcysteine protease, promoter region and 5 ' coding region, Genbank AJ494982; Klebet-Janke, T. and Krupinska, K. (1997) Isolation of cDNA clones for genes showing enhanced expressionin barley leaves during dark-induced senescence as well asduring senescence under field conditions Planta203 (3): 332-40; With, Lee, RH etc., (2001) Leaf senescence in rice plants:cloning and characterization of senescence up-regulated genes, J.Exp.Bot.52 (358): 1117-21.

In other embodiment, can use flower pesticide-specific promotor.Such promotor is known in the art, perhaps can be by known scientific discovery; Referring to, for example, Bhalla and Singh (1999) Molecular control of male fertility inBr assica Proc.10 ^Th Annual Rapeseed Congress, Canberra, Australia(1990) Pollen-and anther-specific chipromoters from petunia:tandem promoter regulation of the chiAgene. such as van Tunen Plant Cell2:393-40; Jeon etc. (1999) Isolation andcharacterization of an anther-specific gene, RA8, from rice (Oryza sativa L). Plant Molecular Biology39:35-44; With (1993) Activation and developmental regulation of anArabidopsis anther-specific promoter in microspores andpollen of Nicotiana tabacum. such as Twell Sex.Plant Reprod.6:217-224.

Root-preferred promotor is known, and can select in the available promotor from many documents, perhaps from various compatible species from new separation.Referring to, for example, Hire etc. (1992) Plant Mol.Biol.20 (2): 207-218 (soybean root-specific glutamine synthetase gene); Keller and Baumgartner (1991) Plant Cell3 (10): 1051-1061 (root-specific controlling elementss in the GRP of Kidney bean 1.8 genes); Sanger etc. (1990) Plant Mol.Biol.14 (3): 433-443 (root-specific promotor of the mannopine synthase of Agrobacterium tumefaciens (MAS) gene); With (1991) such as Miao Plant Cell3 (1): 11-22 (full length cDNA clone of kytoplasm glutamine synthetase (GS) that can encode, this enzyme is expressed in the root of soybean and root nodule).Also referring to (1990) such as Bogusz Plant Cell2 (7): 633-641, wherein described from isolated 2 roots of the hemoglobin gene-specific promotor from fixed nitrogen non-leguminous plant Parasponia andersonii and relevant non--fixed nitrogen non-leguminous plant mountain jute (Trema tomentosa).The promotor of these genes is connected on β-glucuronidase reporter gene, and import in non-leguminous plant tobacco (Nicotiana tabacum) and the leguminous plants Root or stem of Littleleaf Indianmulberry (Lotuscorniculatus), and under 2 kinds of situations, kept root-specific promoter activity.Leach and Aoyagi (1991) described the promotor of rolC that they express the height of rhizobiaceae (Agrobacterium rhizogenes) and rolD root-induced gene analysis (referring to Plant Science(Limerick) 79 (1): 69-76).They think that enhanser and tissue-preferred DNA determinant is isolating in these promotors.Teeri etc. (1989) use the gene fusion demonstration with lacZ, the edaphic bacillus T-DNA gene of octopine synthase of encoding is activated especially in the epidermis of the tip of a root, and TR2 ' gene is a root-specific in complete plant, and stimulated by the wound in the leaf tissue (referring to, for example EMBO J.8 (2): 343-350).TR1 ' the gene that is fused on the nptII (neomycin phosphotransferase II) has shown similar feature.Other root-preferred promotor comprises VfENOD-GRP3 gene promoter (Kuster etc. (1995) Plant Mol.Biol.29 (4): 759-772); With rolB promotor (Capana etc. (1994) Plant Mol.Biol.25 (4): 681-691.Also referring to, U.S. Patent number 5,837,876; 5,750,386; 5,633,363; 5,459,252; 5,401,836; 5,110,732; With 5,023,179.

" seed-preferred " promotor comprises " seed-specific " promotor (activated those promotors, for example promotor of seed storage protein in the seed development process) and " seed-germination " promotor (activated those promotors in the seed germination process).Referring to, for example, Thompson etc. (1989) BioEssays10:108, it is incorporated by reference in this article.Such seed-preferred promotor includes but not limited to Cim1 (phytokinin-inductive information); CZ19B1 (corn 19kDa zein); Milps (inositol-1-phosphate synthase); MZE40-2 is also referred to as Zm-40 (United States Patent (USP) 6,403,862); Nuc1c (United States Patent (USP) 6,407,315); And celA (cellulose synthase) (referring to WO 00/11177).γ-zein is endosperm-specific promotor.Glob-1 is embryo-specific promotor.For dicotyledons, seed-specific promotor includes but not limited to, beans β-Kidney bean albumen, napin, beta-conglycinin, soybean agglutinin, cruciferin etc.For monocotyledons, seed-specific promotor includes but not limited to, corn 15kDa zein promotor, 22kDa zein promotor, 27kDa zein promotor, g-zein promotor, 27kD γ-zein promotor (gzw64A promotor for example, referring to Genbank registration number S78780), the waxy promotor, shrunken 1 promotor, shrunken 2 promotors, sphaeroprotein 1 promotor (referring to Genbank registration number L22344), ltp2 promotor (Kalla, Deng, Plant Journal6:849-860 (1994); United States Patent (USP) 5,525,716), cim1 promotor (referring to United States Patent (USP) 6,225,529), corn end1 and end2 promotor (referring to United States Patent (USP) 6,528, the application 10/310,191 that on December 4th, 704 and 2002 submitted to); Nuc1 promotor (United States Patent (USP) 6,407,315); Zm40 promotor (United States Patent (USP) 6,403,862); Eep1 and eep2; Lec1 (U.S. Patent application 09/718,754); Trx H promotor (U.S. Provisional Patent Application 60/514,123); Mlip15 promotor (United States Patent (USP) 6,479,734); The PCNA2 promotor; With the shrunken-2 promotor.(Shaw etc., Plant Phys 98:1214-1216,1992; Zhong Chen etc., PNAS USA 100:3525-3530,2003).But, skilled in the art will recognize that and to be used to realize other promotors of the present invention, for example the nucellain promotor is (referring to C.Linnestad, Deng, Nucellain, A BarleyHomolog of the Dicot Vacuolar-Processing Proteasem IsLocalized in Nucellar Cell Walls Plant Physiol.118:1169-80 (1998), kn1 promotor are (referring to S.Hake and N.Ori, The Role ofknottedl in Meristem Functions, B8:INTERACTIONS ANDINTERSECTIONS IN PLANT PATHWAYS, COEUR D ' ALENE, IDAHO, KEYSTONE SYMPOSIA, FEBRUARY 8-14,1999, at 27.) and F 3.7 promotor (Baszczynski etc., Maydica 42:189-201 (1997)), etc.In certain embodiments, the promotor that the works glb1 for example space, it is embryo-preferred promotor; Or the γ zein, endosperm-preferred promotor; Or in embryo-peripheral region promoters active (referring to the U.S. Patent application of submitting on February 25th, 2,004 10/786,679) or BETLl (referring to G.Hueros, Deng, Plant Physiology 121:1143-1152 (1999) and Plant Cell 7:747-57 (June 1995)), be useful, comprise preferentially in female reproductive tissue promoters active and in meristematic tissue, particularly in merismatic female reproductive tissue activated those.Also referring to, WO 00/12733, wherein discloses seed from end1 and end2 gene-preferred promotor.

Tissue-specific promotor can drive the expression of the sequence that is operably connected in the target tissue tissue in addition.Thereby as used herein, tissue-specific promotor is to drive preferential expression promoter in target tissue, but also can cause some expression in its hetero-organization.

The promotor that the present invention also expects on duration of service-works.For example, can be chosen in the promotor that pollination back 0-25 days (DAP), 4-21,4-12 or 8-12DAP work, for example, promotors such as cim1 and ltp2.Also can use the promotor that after pollination, worked in-14 to 0 day, for example SAG12 is (referring to WO 96/29858, Richard M.Amasino, on October 3rd, 1996 is open) and ZAG1 or ZAG2 (referring to R.J.Schmidt, Deng, Identification and Molecu1ar Characterization of ZAG1, theMaize Homolog of the Arabidopsis Floral Homeotic Gene AGAMOUS, Plant-Cell5 (7): 729-37 (July 1993)).Other useful promotors comprise that corn zag2.1, Zap (are also referred to as ZmMADS; U.S. Patent application 10/387,937; WO03/078590); With corn tb1 promotor (also referring to Hubbarda etc., Genetics162:1927-1935,2002).

When the overexpression of acc synthase RNA configuration nucleic acid when being deleterious to plant, the technician can recognize, can use the promotor of weak composing type, to carry out low-level expression (perhaps, in certain embodiments, that can use induction type or tissue-specific promotor).Under high-caliber expression those situations harmless to plant, can use strong promoter, for example, t-RNA or other pol III promotors or strong pol II promotor (for example, cauliflower mosaic virus promoter, CaMV, 35S promoter).

When the needs low expression level, can use weak promoter.Usually, " weak promoter " means and can drive the promotor of encoding sequence with low expression level.Low-level being meant is in the level of about 1/1000 transcript to about 1/100,000 transcript to about 1/500,000 transcript.Perhaps, will be appreciated that, weak promoter also comprise only can drive in a few cell, express and in other cells expression promoter not, to produce lower total expression level.When the unacceptable high level expression of promoters driven, can lack or modify the part promoter sequence, to reduce expression level.The promotor of weak composing type like this comprises, for example, and the core promoter of Rsyn7 promotor (WO 99/43838 and U.S. Patent number 6,072,050), core 35S CaMV promotor etc.

In certain embodiments of the invention, can use the promotor of induction type.For example, plant promoter can be under environment control.Such promotor is called " induction type " promotor.The example that can change the envrionment conditions of transcribing that inducible promoter carries out comprises the existence of pathogenic agent attack, anaerobic condition, high temperature and light.For example, the present invention includes the promotor (Busk (1997) of the corn of arid-induction type Plant J.11:1285-1295); The promotor from potato of cold, arid, high salt induction type (Kirch (1997) Plant Mol. Biol.33:897-909) etc.

The promotor of pathogenic agent-induction type is from those of pathogenesis-associated protein (PR albumen), and they are induced behind pathogen infection; For example, PR albumen, SAR albumen, beta-1,3-glucanase, chitinase, etc.Referring to, for example, Redolfi etc. (1983) Neth.J. Plant Pathol.89:245-254; Uknes etc. (1992) Plant Cell4:645-656; With Van Loon (1985) Plant Mol.Virol.4:111-116.Be the U.S. Patent Application Serial 09/257,583 of " Inducible Maize Promoters " also referring to the title of submitting on February 25th, 1999.

Interesting is, can be at the pathogenic infection position or near expression promoter it.Referring to, for example, Marineau etc. (1987) Plant Mol.Biol.9:335-342; Matton etc. (1989) Molecular Plant-Microbe Interactions2:325-331; Somsisch etc. (1986) Proc.Natl.Acad.Sci.83:2427-2430; Somsisch etc. (1988) Mol.Gen.Genet.2:93-98; And Yang (1996) Proc.Natl.Acad.Sci.93:14972-14977.Also referring to, Chen etc. (1996) Plant J.10:955-966; Zhang etc. (1994) Proc.Natl. Acad.Sci.91:2507-2511; Warner etc. (1993) Plant J.3:191-201; Siebertz etc. (1989) Plant Cell1:961-968; U.S. Patent number 5,750,386 (nematode-induction types); The reference of wherein quoting.Making us interested especially is, the promotor of the induction type of corn PRms gene, its expression by pathogenic agent beading sickle spore (Fusarium moniliforme) induced (referring to, for example, Cordero etc. (1992) Physiol.Mol.Plant Path.41:189-200).

In addition, because destroying by wound or insect, pathogenic agent finds the inlet that enters plant, so can use the promotor of wound-induction type to design the present invention.The promotor of such wound-induction type comprises potato proteinase inhibitor (pin II) gene (Ryan (1990) Ann. Rev.Phytopath.28:425-449; Duan etc. (1996) Nature Biotechnology14:494-498); Wun1 and wun2, U.S. Patent number 5,428,148; Win1 and win2 (Stanford etc. (1989) Mol.Gen.Genet.215:200-208); Systemin (McGurl etc. (1992) Science225:1570-1573); WIP1 (Rohmeier etc. (1993) Plant Mol.Biol.22:783-792; Eckelkamp etc. (1993) FEBS Letters323:73-76); MPI gene (Corderok etc. (1994) Plant J.6 (2): 141-150); Deng.

Perhaps, can use the plant promoter of induction type after being exposed to plant hormone (for example growth hormone) to express polynucleotide of the present invention.For example, the present invention can use growth hormone-response element E1 promotor subsequence (the AuxREs) (Liu (1997) from soybean (Glycine max L.) Plant Physiol.115:397-407); Arabidopis thaliana GST6 promotor (also Whitfield's ointment and hydrogen peroxide being had the response) (Chen (1996) of growth hormone-response Plant J.10:955-966); ParC promotor from growth hormone-induction type of tobacco; Plain response element (the Streit (1997) of plant biological Mol.Plant Microbe Interact.10:933-937); With the promotor (Sheen (1996) that the stress hormone dormin is had response Science274:1900-1902).

Can also use after being exposed to chemical reagent the plant promoter of induction type to express polynucleotide of the present invention, described chemical reagent can be applied to plant, for example weedicide or microbiotic.According to purpose, promotor can be the promotor of chemical reagent-induction type, the wherein application meeting inducible gene expression of chemical reagent, or chemical reagent-repressible promoter, wherein the application meeting inhibition of gene expression of chemical reagent.For example, can use corn In2-2 promotor, it is by benzenesulfonamide herbicide safener activation (De Veylder (1997) Plant Cell Physiol.38:568-577); The application of different herbicide-safeners can be induced different gene expression patterns, is included in the expression in root, hydathode and the stem apical meristem.Acc synthase encoding sequence or RNA configuration also can be under the controls of promotor for example tsiklomitsin-induction type and tsiklomitsin-prevent type (referring to, for example, Gatz etc. (1991) Mol.Gen. Genet.227:229-237; U.S. Patent number 5,814,618 and 5,789,156; And Masgrau (1997) Plant J.11:465-473 (having described the rotaring gene tobacco plant of the promotor that contains oat (Avenasativa L.) (oat) arginine decarboxylase gene and tsiklomitsin-induction type); Or, Whitfield's ointment-response element (Stange (1997) Plant J.11:1315-1324.The promotor of other chemical reagent-induction types is known in the art, and includes but not limited to, corn GST promotor, and it can be used as the hydrophobic electrophilic compound activating and the tobacco PR-la promotor of the weedicide before being unearthed, and it can be activated by Whitfield's ointment.The promotor of other interesting chemical reagent-adjusting comprise steroid-response promotor (referring to, for example, Schena etc. (1991) Proc.Natl.Acad.Sci.USA88:10421-10425 and McNellis etc. (1998) Plant J.14 (2): the promotor of the glucocorticosteroid-induction type 247-257).

Can also use the endogenesis promoter of the gene relevant with relevant phenotype with herbicide tolerant, drive acc synthase RNA configuration expression of nucleic acids, for example, P450 monooxygenase, glutathione-S-transferase, homoglutathion-S-transferring enzyme, glyphosate oxydase and 5-enol acetone shikimic acid-2-phosphate synthase.For example, when needs start expression under given conditions, can use the plant promoter that is attached on the polynucleotide of the present invention, described condition is drought condition, term growth condition, density etc. for example.

Can also the specific promotor of using-system instruct the expression of polynucleotide of the present invention, comprise acc synthase RNA configuration nucleic acid, thereby make polynucleotide of the present invention only at some tissue or express in the etap, for example, leaf, flower pesticide, root, stem etc.Tissue-specific expression can be favourable, for example, and when needs are expressed polynucleotide and don't need be expressed in its hetero-organization in some tissue.Tissue-specific promotor be only in specific cells or tissue, the activated transcriptional control element of specified time in the development of plants process, for example in nutritive issue or germinal tissue.Only comprise that at the example of growing the tissue-specific promotor under the control (or only mainly being) starts the promotor of transcribing in some tissue, nutritive issue for example, for example root or leaf, or germinal tissue, for example fruit, ovule, seed, pollen, pistols, flower or embryo tissue arbitrarily.Germinal tissue-specific promotor can be, for example, flower pesticide-specific, ovule-specific, embryo-specific, endosperm-specific, integument-specific, seed and kind skin-specific, pollen-specific, petal-specific, sepal-specific or their some combinations.

Should be understood that many NM promotors also are applicable to this aspect of the present invention, they are that the technician knows, and can easily be used with discussion and the described mode of embodiment of this paper by the technician.For example, the present invention includes, in due course, in the reorganization environment, use natural acc synthase promotor to drive the expression of enzyme (or acc synthase polynucleotide sequence or subsequence).

When preparation expression vector of the present invention, can randomly use the sequence except the sequence relevant with endogenous acc synthase gene, mRNA or peptide sequence or its subsequence.For example, can also comprise other regulatory element, for example intron, leader sequence, polyadenylation district, signal/location peptide etc.

The carrier that comprises polynucleotide of the present invention can also comprise marker gene, and the latter can give vegetable cell and select phenotype.For example, mark can encode biocide tolerance, especially antibiotic resistance are for example to the tolerance of kantlex, G418, bleomycin, Totomycin, or herbicide tolerant, for example to grand (chlorosulfuron---or the tolerance of phophinothricin of chlorine sulphur.Can use and be used for by visual reaction product (for example, β-glucuronidase, beta-galactosidase enzymes and E.C. 2.3.1.28) or by direct viewing gene product itself (for example, green fluorescent protein, GFP; Sheen etc. (1995) The Plant Journal8:777) monitor the localized reporter gene of genetic expression and albumen, for example be used for monitoring the transient gene expression of vegetable cell.

The carrier that is used to breed and expresses can comprise selective marker usually.Such mark also goes for amplification, and perhaps this carrier can contain and is useful on other marks of this purpose.In this, expression vector preferably contains one or more selectable marker genes, to be provided for selecting the phenotypic character of transformed host cells.Preferred mark comprises: cultivating for eukaryotic cell, is Tetrahydrofolate dehydrogenase or neomycin resistance; For cultivating intestinal bacteria and other prokaryotic organism, be tsiklomitsin or ampicillin resistance gene.Kantlex and herbicide resistance gene (PAT and BAR) are generally used for botanical system.

Use the selectable marker gene of the dna fragmentation that physically closes on importing, can select or screening, reclaim cell transformed by positive heredity.Selectable marker gene can also be kept selective pressure to transgenic plant colony, can keep the dna fragmentation and its control to promotor and enhanser that imports to guarantee transgenic plant.

From bacterium, separated many positive selection marker genes that are used for Plant Transformation commonly used, and the described gene metabolism ground optionally enzyme of chemical reagent (can be microbiotic or weedicide) that detoxifies of encoding.Other positive selection marker gene can encode change to the insensitive target of inhibitor.

The example that is used for the selectable marker gene of Plant Transformation is BAR or pat gene, and it uses (Spencer etc., J. with the selective reagents bilanafos Theor.Appl ' d Genetics79:625-631 (1990)).Another kind of useful selectable marker gene is from the isolating neomycin phosphotransferase II of Tn5 (nptII) gene, when placing the plant conditioning signal to control following time, it can give resistance to kantlex (Fraley etc., Proc.Nat ' lAcad. Sci. (USA)80:4803 (1983)).Can give hygromycin phosphotransferase gene to the resistance of antibiotic hygromycin and be useful selective marker another example (Vanden Elzen etc., Plant Mol.Biol.5:299 (1985)).Can give other positive selection marker genes to the bacterial origin of antibiotic resistance comprise GAT, streptomycin phosphotransferase, aminoglycoside-3 '-adenylyl transferase and bleomycin RD (Hayford etc., Plant Physiol.86:1216 (1988); Jones etc., Mol.Gen.Genet.210:86 (1987); Svab etc., Plant Mol.Biol.14:197 (1990); Hille etc., Plant Mol.Biol.7:171 (1986)).

Other positive selection marker genes that are used for Plant Transformation are not bacterial origins.These genes comprise little mouse dihydrofolate reductase, plant 5-enol acetone shikimic acid-3-phosphate synthase and plant acetyl lactic acid synthase (Eichholtz etc., Somatic Cell Mol.Genet.13:67 (1987); Shah etc., Science233:478 (1986); Charest etc., Plant Cell Rep.8:643 (1990)).Other examples of suitable selectable marker gene include but not limited to encode to the gene of the resistance of following substances: paraxin, and HerreraEstrella etc. (1983) EMBO is J.2:987-992; Methotrexate, HerreraEstrella etc. (1983) Nature 303:209-213; Meijer etc. (1991) Plant Mol.Biol.16:807-820; Totomycin, Waldron etc. (1985) Plant Mol. Biol.5:103-108; Zhijan etc. (1995) Plant Science108:219-227; Streptomycin sulphate, Jones etc. (1987) Mol.Gen.Genet.210:86-91; Spectinomycin, Bretagne-Sagnard etc. (1996) Transgenic Res.5:131-137; Bleomycin, Hille etc. (1990) Plant Mol.Biol.7:171-176; Sulfanilamide (SN), Guerineau etc. (1990) Plant Mol.Biol.15:127-136; Bromoxynil, Stalker etc. (1988) Science 242:419-423; Glyphosate, Shaw etc. (1986) Science 233:478-481; Phosphinothricin, DeBlock etc. (1987) EMBO J.6:2513-2518.

Another kind ofly useful be used for marker gene that dna sequence dna carries out Plant Transformation and need screen and infer the plant transformed cell, rather than directly select cell transformed hereditarily for example antibiotic resistance of toxicant.These genes are specially adapted to quantitatively or observe the space expression feature of dna sequence dna in particular organization, and often are known as reporter gene, because they can be fused to gene or the sequential gene regulating that is used to study genetic expression.Commonly used be used to screen the gene of inferring cell transformed comprise β-glucuronidase (GUS), beta-galactosidase enzymes, luciferase and E.C. 2.3.1.28 (Jefferson, Plant Mol.Biol.Rep.5:387 (1987); Teeri etc., EMBO J.8:343 (1989); Koncz etc., Proc. Nat ' l Acad.Sci. (USA)84:131 (1987); De Block etc., EMBO J.3:1681 (1984)).Can in following document, find the example of other suitable reporter genes known in the art, for example: Jefferson etc. (1991) in Plant MolecularBiology Manual, ed.Gelvin etc. (Kluwer Academic Publishers), the 1-33 page or leaf; DeWet etc. (1987) Mol.Cell.Biol.7:725-737; Goff etc. (1990) EMBO J.9:2517-2522; Kain etc. (1995) BioTechniques19:650-655; With (1996) Current Biology 6:325-330 such as Chiu.Another scheme that is used to differentiate rare relatively transformation event is, use can encode Zea mays anthocyanin chromogenesis approach dominance the composing type conditioning agent gene (Ludwig etc., Science247:449 (1990)).

By any well-known and conventional technology, suitable dna sequence dna can be inserted in the carrier.Usually,, with the T4DNA ligase enzyme restricted fragment is connected together then, the dna sequence dna that is used for expressing can be connected to expression vector by with one or more restriction endonuclease cutting DNA sequence and expression vector.Can be with insertion sequence forward or backwards.Can be used for the restriction and the method for attachment of this purpose, be that the technician is well-known and conventional.Sambrook etc., MOLECULAR CLONING, A LABORATORY MANUAL, the 2nd edition; ColdSpring Harbor Laboratory Press, Cold Spring Harbor, among the New York (1989), very at length set forth about the appropriate method of this point and the method for use substitute technology construction of expression vector, this also is that the technician is well-known and conventional.

Usually, use standard technique, the polynucleotide of the present invention of allos structure sequence of polypeptide of the present invention of randomly encoding insert in the carrier, thereby it is (as used herein that it is operably connected on the expression promotor, being operably connected comprises that the function that refers between promotor and second sequence connects, and wherein promoter sequence can start and mediate transcribing of the DNA corresponding with second sequence.Usually, being operably connected refers to that the nucleotide sequence that will connect is an adjacency, essential when connecting 2 protein-coding regions, be adjacency and in identical reading frame).When polynucleotide are used for express polypeptide, can arrange the position of polynucleotide, thereby make transcriptional start point suitably be positioned at 5 of ribosome bind site '.Ribosome bind site is at 5 of AUG ', and this AUG can start the translation of wanting polypeptide expressed.Usually, can not exist with initiator codon (normally AUG) beginning and other open reading-frame (ORF)s between ribosome bind site and initiator codon.In addition, usually, can there be translation stop codon at the end of polypeptide, and, can has polyadenylation signal being used for the construct of eucaryon host.In polynucleotide constructs, can also comprise the transcription termination signal that suitably is arranged in 3 of transcriptional domain ' end.

For the nucleic acid construct that is designed for express polypeptide, expression cassette can contain 5 ' leader sequence in addition.Such leader sequence can work to strengthen translation.The translation leader sequence is known in the art, and comprises: the picornavirus leader sequence, for example: EMCV leader sequence (encephalomyocarditis 5 ' non-coding region), Elroy-Stein etc. (1989) Proc.Nat.Acad.Sci.USA 86:6126-6130; The marmor upsilon leader sequence, for example, TEV guide's thing (marmor erodens), Allison etc. (1986); MDMV leader sequence (maize dwarf mosaic virus), Virology 154:9-20; Human immunoglobulin heavy chain conjugated protein (BiP), Macejak etc. (1991) Nature 353:90-94; From the untranslated leader sequence (AMV RNA 4) of the coat protein mRNA of alfalfa mosaic virus, Jobling etc. (1987) Nature325:622-625); Tobacco mosaic virus (TMV) leader sequence (TMV), Gallie etc. (1989) Molecular Biology of RNA, 237-256 page or leaf; With (1991) Virology 81:382-385 such as corn chlorotic mottle poison leader sequence (MCMV) Lommel.Also referring to (1987) Plant Physiology 84:965-968 such as Della-Cioppa.This box can also contain the sequence that can strengthen translation and/or mRNA stability, for example intron.Expression cassette generally also comprises the translation termination district at 3 ' end of isolating target nucleotide sequence, for example, the translation termination district of function is arranged in plant.

Needs make the expression product of isolating nucleotide sequence point to specific organoid (especially plastid, amyloplast) or endoplasmic reticulum be secreted into cell surface or extracellular situation under, expression cassette can also comprise the encoding sequence that transports peptide.Such transportation peptide is well-known in the art, and includes but not limited to: the transportation peptide of acyl carrier protein, the small subunit of rubisco, plant EPSP synthase etc.

During expression cassette, can handle multiple dna fragmentation in preparation, so that the dna sequence dna of suitable direction to be provided, and if suitably, in suitable reading frame.For this purpose, can use connector or joint to connect dna fragmentation, perhaps can comprise other operations,, remove unnecessary DNA, remove restriction site etc. with the restriction site of providing convenience.For this purpose, can comprise vitro mutagenesis, primer reparation, restriction digest, annealing and replace for example conversion and transversion again.

Pointed as this paper, the invention provides and can express the carrier that is in the target gene under the regulatory element control.Usually, carrier should have function in vegetable cell.Sometimes, preferably use the carrier that function is arranged in other host cells, for example, in intestinal bacteria, (for example, be used to produce the amount that albumen obtains antibody, dna sequence analysis, structure insertion fragment or obtains nucleic acid).In (the same) such as Sambrook, the carrier and the method that are used in intestinal bacteria clone and expression have been discussed.

In expression cassette, comprise the conversion carrier that is operably connected to the promotor of the present invention that isolating nucleotides sequence lists, can also contain at least one other the nucleotide sequence that will transform the gene in the biology into jointly.Perhaps, can on another conversion carrier, provide other sequences.

Use many well-known be suitable for the expressing RNA of needs and/or the technology of polypeptide, carrier can be imported among the suitable host, described carrier contains described suitable dna sequence dna of this paper elsewhere and suitable promotor and other suitable control sequences.The invention still further relates to the host cell that contains above-mentioned construct.Host cell can be a for example vegetable cell of higher eucaryotic cells, or eukaryotic cell such as low yeast cell for example, or host cell can be a for example bacterial cell of prokaryotic cell prokaryocyte.

By transfection, microinjection, the transfection of positively charged ion lipid-mediation, electroporation, transduction, scrape loading, impact importing, infection or the additive method of calcium phosphate transfection, the mediation of DEAE-dextran, can realize the importing of construct in host cell.The laboratory manual of many standards has been described such method, Davis etc. for example, BASIC METHODS INMOLECULAR BIOLOGY, (1986) and Sambrook etc., MOLECULAR CLONING:ALABORATORY MANUAL, the 2nd edition, Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y. (1989).

Suitable host's representational example comprises bacterial cell, for example suis, staphylococcus, intestinal bacteria, streptomyces (Streptomyces) and Salmonella typhimurium (Salmonella typhimurium) cell; Fungal cell, for example yeast cell and Aspergillus (Aspergillus) cell; Insect cell is fruit bat (Drosophila) S2 and spodoptera (Spodoptera) Sf9 cell for example; Zooblast is CHO, COS and Bowes melanoma cells for example; And vegetable cell.Vegetable cell can be derived from the floristics of wide scope, especially monocotyledons, species for example gramineous comprise Chinese sorghum (Sorghum bicolor) and Zea mays, and dicotyledons, for example soybean and canola (colea, turnip (Brassica rapa ssp.)).Preferably, plant comprises corn, soybean, Sunflower Receptacle, safflower, canola, wheat, barley, rye, clover, rice, oat, turfgrass and Chinese sorghum; But, isolating nucleic acid of the present invention and albumen can be used for the species from following genus: Ananas (Ananas), antirrhinum (Antirrhinum), Arabidopsis (Arabidopsis), Arachis (Arachis), Asparagus (Asparagus), Atropa (Atropa), Avena (Avena), Btassica (Brassica), Brome (Bromus), Browaalia, Camellia (Camellia), Capsicum (Capsicum), Ciahorium, Citrus (Citrus), cocoanut (Cocos), Coffea (Cofea), Cucumis (Cucumis), Cucurbita (Cucurbita), Datura (Datura), Daucus (Daucus), Digitalis (Digitalis), Ficus (Ficus), Fragaria (Fragaria), Geranium (Geranium), Glycine (Glycine), Gossypium (Gossypium), Helianthus (Helianthus), Heterocallis, Hordeum (Hordeum), poison tobacco (Hyoscyamus), Ipomoea (Ipomoea), white walnut (Juglans), Lactuca (Lactuca), linum (Linum), lolium (Lolium), Lotus (Lotus), tomato belongs to (Lycopersicon), Majorana Mango really belongs to (Mangifera), cassava (Manihot), Medicago (Medicago), Musa (Musa), Nemesis, Nicotiana (Nicotiana), Olea (Olea), donkey food grass belongs to (Onobrychis), Oryza (Oryza), Panieum, Pelargonium (Pelargonium), Pennisetum (Pennisetum), Persea (Persea), green winter Solanum (Petunia), Phaseolus (Phaseolus), Pisum (Pisum), Psidium (Psidium), Ranunculus (Ranunculus), Rhaphanus (Raphanus), rose (Rosa), Salpiglossis, Secale (Secale), Senecio (Senecio), Solanum (Solanum), sinapsis alba belongs to (Sinapis), sorghum (Sorghum), Theobroma (Theobroma), Triticum (Triticum), Clover (Trifolium), Semen Trigonellae belongs to (Trigonella), Vigna (Vigna), Vitis (Vitis) and Zea, and many other examples (other genus of for example, pointing out in this article).

Promoter region of the present invention can separate certainly plant arbitrarily, includes but not limited to corn (corn; Zea mays), low erucic acid mustard seed (colea, turnip), clover (Medicagosativa), rice (Oryza sativa), rye (Secale cereale), Chinese sorghum (Sorghumbicolor, Sorghum vulgare), Sunflower Receptacle (Helianthus annuus), wheat (common wheat (Triticum aestivum)), soybean (Glycine max), tobacco (Nicotianatabacum), potato (Solanum tuberosum), Semen arachidis hypogaeae (Arachishypogaea), cotton (upland cotton (Gossypium hirsutm)), sweet potato (sweet potato (Ipomoea batatus)), cassava (Manihot esculenta), coffee (Cofeaspp.), coconut (Cocos nucifera), pineapple (Ananas comosus), mandarin tree (Citrus spp.), cocoa (Theobroma cacao), tea (Camellia sinensis), banana (Musa spp.), avocado (Petsea americana), Fructus Fici (Ficuscasica), piscidia (Psidium guajava), mango (Mango fruit (Mangiferaindica)), olive (Fructus oleae europaeae (Olea europaea)), oat, barley, vegetables, ornamental plant and softwood tree.Preferably, plant comprises corn, soybean, Sunflower Receptacle, safflower, low erucic acid mustard seed, wheat, barley, rye, clover, rice, oat, turfgrass and Chinese sorghum.

The host of many expression construct is well-known, and present disclosure can make the technician easily select to be used to express host according to the polypeptide of this aspect of the present invention.

Can be in the nutritional medium of routine the host cell of culturing engineeringization, in due course, can improve this substratum, activate promotor inter alia, select transformant or amplification gene being used for.Usually, as it will be understood by those skilled in the art that, the former culture condition that uses with the host cell of selecting that is used to express, for example temperature, pH etc. also are applicable to and express nucleic acid of the present invention and/or polypeptide.

Can or be in other cells under the control of suitable promotor on mammalian cell, yeast, bacterium, express sophisticated albumen.Can also use acellular translation system, be derived from the RNA of DNA construct of the present invention, produce such albumen with use.

After transforming the appropriate host strain and making host's strain grow to suitable cell density (at this moment the promotor of Xuan Zeing is an induction type), by suitable mode (for example, temperature variation or be exposed to chemical inducer) induce and other culturing cell for some time.

Then, generally by centrifugal cell harvesting, destroy by mode physics or chemistry, and the crude extract that reservation obtains is used to be further purified.By any method easily, comprise freeze thaw circulation, supersound process, physical disturbance or use the lysis agent, can destroy the microorganism cells that is used for expressing protein; Such method is that those skilled in the art is well-known.

The method that ethene suppressing is produced

The present invention also provides the method that suppresses the ethylene production in the plant (with the plant that produces by such method).For example, the method for ethene suppressing production comprises the one or more acc synthase genes in the deactivation plant, wherein one or more acc synthase genes one or more acc synthases of encoding.Generally, at least a and SEQ ID NO:7 (pACS2), SEQ ID NO:8 (pACS6), SEQ ID NO:9 (pAC7) or the SEQ ID NO:11 (pCCRAl78R) in one or more acc synthases for example have at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or higher identity.

Antisense, there are justice, RNA reticent or disturb configuration

By importing and express the transgenic sequence of can encode one or more acc synthases or its subsequence and promotor, for example, antisense or adopted configuration is arranged or RNA is reticent or disturb configuration etc., thus with corresponding control plant (for example, non--genetically modified the plant of its non--genetically modified parent or same species) compare, the one or more acc synthase genes of deactivation, can the one or more acc synthase genes of deactivation.It also is the part of " polynucleotide of the present invention " referring to title.By multiple technologies, include but not limited to that for example, the transfer of electroporation, microparticle bombardment, edaphic bacillus-mediation or other available methods can import at least one polynucleotide sequence.Also referring to, title herein is the part of " Plant Transformation "., polynucleotide are connected on the promotor with sense orientation or antisense orientation aspect some of the present invention, or it is reticent or disturb to be provided for RNA.

In some cases, can be preferably reticent or reduce some gene, for example acc synthase gene.The pertinent literature of having described the application of the gene silencing that depends on homology comprises: Jorgensen, Trends Botechnol.8 (12): 340-344 (1990); Flavell, Proc.Nat ' l.Acad.Sci. (USA)91:3490-3496 (1994); Finnegan etc., Bio/Technology12:883-888 (1994); Neuhuber etc., Mol.Gen. Genet.244:230-241 (1994); Flavell etc. (1994) Proc.Nal.Acad.Sci.USA 91:3490-3496; Jorgensen etc. (1996) Plant Mol. Biol.31:957-973; Johansen and Carrington (2001) Plant Physiol.126:930-938; Broin etc. (2002) Plant Cell14:1417-1432; Stoutjesdijk etc. (2002) Plant Physiol.129:1723-1731; Yu etc. (2003) Phytochemistry 63:753-763; With U.S. Patent number 5,034,323,5,283,184 and 5,942,657.Perhaps, the another kind of scheme of carrying out gene silencing can be to use antisense technology (in such as Rothstein Plant Mol.Cell.Biol.6:221-246 (1989); Liu etc. (2002) Plant Physiol.129:1732-1743 and U.S. Patent number 5,759,829 and 5,942,657.

The application of antisense nucleic acid is well-known in the art.Antisense nucleic acid has and target nucleic acid complementary zone, described target nucleic acid for example, acc synthase gene, mRNA or cDNA.Antisense nucleic acid can be RNA, DNA, PNA or any other suitable molecule.Can form duplex between antisense sequences and its complementary sense sequence, thereby cause the inactivation of gene.Antisense nucleic acid can by with form duplex from the RNA of genetic transcription, by forming triplex etc. with duplex DNA, suppress this genetic expression.By many technology of determining very much (for example, the chemosynthesis or the in-vitro transcription of sense-rna or oligonucleotide (randomly comprise the Nucleotide and/or the connection of modification, it can improve the resistance of degraded or improve cell and take in)), can produce antisense nucleic acid, for example, at acc synthase gene.Antisense nucleic acid and their application are documented in, for example, (June 5 for Haselton and Alexander, 2001) United States Patent (USP) 6,242,258, its title is " Methods for the selective regulation ofDNA and RNA transcription and translation by photoactivation "; United States Patent (USP) 6,500,615; United States Patent (USP) 6,498,035; United States Patent (USP) 6,395,544; United States Patent (USP) 5,563,050; E.Schuch etc. (1991) Symp Soc.Exp Biol45:117-127; De Lange etc., (1995) Curr Top Microbiol Immunol197:57-75; Hamilton etc. (1995) Curr Top Microbiol Immunol197:77-89; Finnegan etc., (1996) Proc Natl Acad Sci USA93:8449-8454; Uhlmann and A.Pepan (1990), Chem.Rev.90:543; P.D.Cook (1991), Anti-Cancer Drug Design6:585; J.Goodchild, Bioconjugate Chem.1 (1990) 165; With S.L.Beaucage and R.P.Iyer (1993), Tetrahedron49:6123; And F.Eckstein, Ed. (1991), Oligonucleotides and Analogues--A Practical Approach, IRLPress.

Can also use the RNA molecule of catalytic or the expression that ribozyme suppresses acc synthase gene.Can design ribozyme, the latter can be specifically and target RNA pairing in fact arbitrarily, and at specific position cutting phosphodiester backbone, thus on function deactivation target RNA.When carrying out this cutting, ribozyme self does not change, and thereby can recirculation and other molecules of cutting.Ribozyme sequence is included in the sense-rna, the RNA-nicking activity that relies on them can be provided, thereby strengthen the activity of construct.

Identified the ribozyme of numerous species.For example, a class ribozyme be derived from many can be in plant oneself's cutting and the little circular rna that duplicates.This RNA can duplicate (viroid RNA) separately, perhaps duplicates with helper virus (satellite RNA).The example of RNA comprises from the RNA of avocado sunbloth viroid with from the satellite RNA of following virus: nepovirus, alfalfa be easy crosses the property strip virus, the fine hair korron is refuted virus, solanum nodiflorum mottle virus and subterranean clover mottle virus.The design and the application of the specific ribozyme of target RNA-have been described.Referring to, for example, Haseloff etc. (1988) Nature, 334:585-591.

By suppressing to express the another kind of method of deactivation acc synthase gene is by there being justice to suppress.Showing that import expression cassette, wherein being designed to nucleic acid with respect to promotor is sense orientation, is the effective ways of transcribing that block the target gene that needs.Referring to, for example, Napoli etc. (1990), The Plant Cell2:279-289 and U.S. Patent number 5,034,323,5,231,020 and 5,283,184.

Use the reticent or interference (RNAi) of RNA, gene silencing (PTGS) after it may also be referred to as and transcribes or inhibition altogether, the plant that also can produce the acc synthase gene that comprises one or more inactivations of isolating or reorganization.In the context of the present invention; " RNA silence " (being also referred to as the interference of RNAi or RNA-mediation) refers to any mechanism; the double-stranded RNA strand that exists in the cell or general causes the inhibition of expression of target gene by this mechanism; described target gene comprises sequence identical with the RNA sequence or much at one; this includes but not limited to; RNA disturbs; the translation of the said target mrna that inhibition is transcribed from target gene and do not change the stability of mRNA; and Transcriptional Silencing (for example; acetylation of histone and heterochromatin form, and it can cause the inhibition of transcribing of said target mrna).In " RNA interference ", strand or the double-stranded existence of RNA in cell can cause the degraded of endonuclease cutting and said target mrna then.

In one embodiment, transgenosis (for example, the sequence of acc synthase gene or encoding sequence and/or subsequence) is imported in the vegetable cell, with the reticent or interference (RNAi) by RNA, the one or more acc synthase genes of deactivation.For example, sequence or subsequence comprise: little subsequence, for example, about 21-25 base long (with one or more acc synthase gene subsequences for example have at least 80%, at least 90% or about 100% identity), big subsequence, for example, about 25-100 or about 100-2000 (or about 200-1500, about 250-1000, Deng) individual base long (zone of its at least one about 21-25 base and one or more acc synthase gene subsequence have at least 80%, at least 90% or 100% identity), and/or complete encoding sequence or gene.In one embodiment, transgenosis comprises the long zone of about 21-25 base in this sequence or the subsequence, and itself and acc synthase gene or encoding sequence have at least 80%, at least 90% or about 100% identity.

Fully having put down in writing RNAi in the literature (comprises at many cell types, for example, vegetable cell) purposes of inhibition of gene expression and in the biology, for example, the expression of hair clip (stem-ring) RNA by RNA interfering or the expression of 2 chains, method that is used for determining suitable RNA interfering that can target target gene (for example, acc synthase gene) and the method that is used to generate such RNA interfering have equally fully been put down in writing.For example, RNA disturbs and for example to be documented in, U.S. Patent Application Publication No. 20020173478,20020162126 and 20020182223 and Cogoni and Macino (2000) " Post-transcriptionnal gene silencing acrosskingdoms " Genes Dev., 10:638-643; Guru T. (2000), " A silencethat speaks volumes " Nature404:804-808; Hammond etc., (2001), " Post-transcriptional Gene Silencing by Double-stranded RNA " Nature Rev.Gen.2:110-119; Napoli etc., (1990) " Introductionof a chalcone synthase gene into Petunia results in reversibleco-suppression of homologous genes in trans. " Plant Cell2:279-289; Jorgensen etc., (1996), " Chalcone synthasecosuppression phenotypes in petunia flowers:comparison ofsense vs.antisense constructs and single-copy vs.complexT-DNA sequences " Plant Mol.Biol., 31:957-973; Hannon G.J. (2002) " RNA interference " Nature., Jul 11; 418 (6894): 244-51; Ueda R. (2001) " RNAi:a new technology in the post-genomicsequencing era " J Neurogenet.15 (3-4): 193-204; Ullu etc. (2002) " RNA interference:advances and questions " Philos Trans R Soc Lond B Biol Sci.Jan 29; 357 (1417): 65-70; Waterhouse etc., (1998) Proc Natl Acad Sci USA 95:133959-13964; Schmid etc. (2002) " Combinatorial RNAi:a method for evaluating the functions ofgene families in Drosophila " Trends Neurosci.Feb; 25 (2): 71-4; Zeng etc. (2003) " MicroRNAs and small interfering RNAs caninhibit mRNA expression by similar mechanisms " Proc.Natl.Acad.Sci.USA 100:9779-9784; Doench etc. (2003) " siRNAs canfunction as miRNAs " Genes ﹠amp; Dev.17:438-442; Bartel and Bartel (2003) " MicroRNAs:At the root of plant development? " PlantPhysiology 132:709-717; Schwarz and Zamore (2002) " Why do miRNAslive in the miRNP? " Genes ﹠amp; Dev.16:1025-1031; Tang etc. (2003) " A biochemical framework for RNA silencing in plants " Genes﹠amp; Dev.17:49-63; Meister etc. (2004) " Sequence-specificinhibition of microRNA-and siRNA-induced RNA silencing " RNA10:544-550; Nelson etc. (2003) " The microRNA world:Small ismighty " Trends Biochem.Sci.28:534-540; Dykxhoorn etc. (2003) " Killing the messenger:Short RNAs that silence geneexpression " Nature Reviews Molec.and Cell Biol.4:457-467; McManus and Sharp (2002) " Gene silencing in mammals by smallinterfering RNAs " Nature Reviews Genetics 3:737-747; Hutvagner and Zamore (2002) " RNAi:Nature abhors a doublestrand " Curr Opin Genet ﹠amp; Dev 200:225-232; And Agami (2002) " RNAiand related mechanisms and their potential use for therapy " Curr Opin Chem Biol 6:829-834.

Can express the acc synthase polynucleotide sequence or the subsequence that are used to induce RNAi, for example, under the control of the promotor of the promotor of composing type, induction type or tissue-specific promotor.In certain embodiments, the expression of tissue-specific promotor can be favourable.For example, the one or more acc synthase genes of the expression of leaf-specific promotor in can the deactivation leaf generate and protect green phenotype, and the acc synthase gene in the not deactivation root (this can reduce the waterflooding tolerance).Similarly, the one or more acc synthase genes of the expression of flower pesticide-specific promotor in can deactivation flower pesticide generate male sterile phenotype phenotype, and the acc synthase gene in other parts of not deactivation plant.Can randomly make up such scheme, for example, to be used for one or more acc synthase genes of deactivation leaf and flower pesticide.

Transposon

Also can the one or more acc synthase genes of deactivation, for example, by inactivation of gene based on transposon.In one embodiment, inactivation step is included in and generates one or more sudden changes in the acc synthase gene sequence, wherein the one or more sudden changes in the acc synthase gene sequence comprise one or more transposons insertions, compare the one or more acc synthase genes of deactivation thus with corresponding control plant.For example, these one or more sudden changes are included in the destruction of isozygotying in one or more acc synthase genes, perhaps these one or more sudden changes are included in the destruction of the heterozygosis in one or more acc synthase genes, surpass an acc synthase gene if perhaps destroyed, then comprise the destruction of isozygotying and the destructive combination of heterozygosis.

In later stage nineteen forties, Barbara McClintock has identified transposon first in corn.The mutator gene family of transposable element, for example, Luo Baixunshi mutator gene (Mu) transposable element generally is used for gene mutagenesis in plant (for example, corn), because they exist with high copy number (10-100), and preferentially is inserted in the gene with on every side.

According to their swivel base mode, transposable element can be divided into 2 big classes.They are called classification I and classification II; The two can be used as mutagenic compound and delivery vectors.Classification I transposable element carries out swivel base by the RNA intermediate, and uses reversed transcriptive enzyme, and promptly they are retroelements.There is at least 3 types classification I transposable element, for example, retrotransposon, retroposon, SINE-like factor.

Retrotransposon generally contains LTR and gene (gag) and reversed transcriptive enzyme, RNA enzyme H, intergrase and polysaccharase (pol) gene of the virus capsid protein of encoding.Many retrotransposons have been described in plant species.Such retrotransposon can be in the reversed transcriptive enzyme and the catalytic reaction of RNA enzyme H of transposon coding, moves and is shifted by the RNA intermediate.Example drop in Tyl-copia and the Ty3-gypsy group and SINE-sample and the classification of LINE-sample in.Discuss referring to Kumar and Bennetzen (1999) PlantRetrotransposons in more detail Annual Review of Genetics33:479. in addition, also found DNA transposable element for example Ac, Taml and En/Spm at many plant species, and can be used for the present invention.

Transposon (with the IS element) is the general tool that is used for sudden change is imported vegetable cell.With these movably gene send and pass cell, for example,, select swivel base, and the insertion mutant that obtains of screening by sexual hybridization, for example, at the target phenotype.By making plant and unbroken plant hybridization isolating or reorganization, for example,, the plant that comprises the destructive acc synthase gene can be imported in the other plant by sexual hybridization.According to the species that will hybridize, can use in many standard breeding techniques any.By known method, for example order-checking of flanking region as herein described can be determined the position of TN in the genome of the plant of isolating or reorganization.For example, can use the PCR of plant to react extension increasing sequence, can diagnose order-checking to it then, to confirm its source.Randomly, the desirable phenotype of mutant is inserted in screening, for example compares the inhibition of the expression of acc synthase or active inhibition, ethene or the production of minimizing, the green potentiality of guarantor etc. with control plant.

TILLING

Also can use TILLING to come the one or more acc synthase genes of deactivation.TILLING be target inductive local damage in genomics ( TArgeting INduced LOcal LEsions IN GEnomics).Referring to, for example, McCallum etc., (2000), " Targeting Induced Local Lesions IN Genomics (TILLING) forPlant Functional Genomics " Plant Physiology 123:439-442; McCallum etc., (2000) " Targeted screening for induced mutations " Nature Biotechnology18:455-457; With Colbert etc., (2001) " High-Throughput Screening for Induced Point Mutations " PlantPhysiology 126:480-484.

TILLING has made up the detection of the rapid sensitive of high-density point mutation and sudden change.Generally, use ethyl methane sulfonate (EMS) to come the mutagenesis plant seed.EMS energy alkylation guanine, this generally causes mispairing.For example, seed is immersed in the EMS solution of about 10-20mM about 10-20 hour; Washing seed, sowing then.In this,, plant was called M1 in generation.Then, allow the selfing of M1 plant.The sudden change that is present in the cell that can form germinal tissue can entail the next generation (M2).Generally, the sudden change and/or the particular phenotype of the target gene in the screening M2 plant.

For example, compile DNA, and form the sudden change that detects in the acc synthase gene by detecting heteroduplex from the M2 plant.Generally, prepared DNA from every kind of M2 plant, and compiled.By PCR, the acc synthase gene that needs has increased.Make the sample sex change that compiles then, and annealing, to form heteroduplex.If sudden change is present in the kind of plant, then the PCR product belongs to 2 types: wild-type and mutant.By separating the PCR reactant, for example, can identify the storehouse that comprises heteroduplex by sex change high performance liquid chromatography (DPHPLC).DPHPLC can detect by the mispairing in the heteroduplex that produces that unwinds and anneal of heteroalleles DNA.In heating DNA, carry out chromatogram.Heteroduplex has lower thermostability, and forms the bubble that unwinds, thereby causes motion faster in chromatographic column.When except the homoduplex of expection, also having heteroduplex, can see bimodal.As a result, identified the storehouse of carrying the sudden change in the acc synthase gene.Then, can differentiate and check order each DNA of the plant of forming the selected colony that compiles.Randomly, can make the plant and the other plant hybridization of the ideal sudden change of carrying in the acc synthase, to remove the background sudden change.

Also can use other mutafacient system that sudden change is imported in the acc synthase gene.It is well-known with the method that selection has the plant of ideal character that genetic mutation is imported plant gene.For example, can be according to standard technique, with mutagenesis chemical substance treatment seed or other plant material.Such chemical substance includes but not limited to following: ethyl sulfate, ethyleneimine and N-nitroso-group-N-ethyl urea.Perhaps, can use from ionizing rays such as sources such as X-ray or gamma-radiations.

Can use other detection methods of the sudden change that is used for detecting acc synthase gene, for example, capillary electrophoresis (for example, constant denaturing agent capillary electrophoresis and single strand conformation polymorphism).In another example, can use mismatch repair enzyme to learn (for example), detect heteroduplex from the CEL I endonuclease of celery.CEL I can discern mispairing, and at 3 ' side clean cut of mispairing.By with the mismatch repair enzyme cutting, carry out for example denaturing gel electrophoresis then, can determine the accurate base position of mispairing.Referring to, for example, Oleykowski etc., (1998) " Mutation detection using a novel plant endonuclease " NucleicAcids Res.26:4597-4602; With Colbert etc., (2001) " High-ThroughputScreening for Induced Point Mutations " Plant Physiology126:480-484.

Can make the plant and the other plant hybridization of the acc synthase gene that contains sudden change, import in the another kind of plant suddenling change.This can use the standard breeding technique to finish.

Homologous recombination

Also can use homologous recombination to come the one or more acc synthase genes of deactivation.In plant, confirmed homologous recombination.Referring to, for example, Puchta etc. (1994), Experientia50:277-284; Swoboda etc. (1994), EMBO J.13:484-489; Offringa etc. (1993), Proc.Natl.Acad.Sci.USA90:7346-7350; Kempin etc. (1997) Nature389:802-803; With Terada etc., (2002) " Efficientgene targeting by homologous recombination in rice " Nature Biotechnology, 20 (10): 1030-1034.

Can use homologous recombination,, induce the genetic modification of target with by target acc synthase gene in the specificity terrain.The external sudden change that has produced in the part (comprising 5 ' upstream, 3 ' downstream and intragenic zone) of the acc synthase gene sequence of selecting, for example those that provide in this article, and use standard technique has imported in the ideal plant.The gene of sudden change can interact with target acc synthase wild type gene, thereby cause the active inhibition of acc synthase with the homologous recombination of generation wild type gene in transgenic plant and the mode that target is replaced.

Regulate the method for the green potentiality of guarantor of plant

The method of regulating the green potentiality of guarantor of plant also is a feature of the present invention.With the ability in the green potentiality importing of the guarantor in various degree plant, can provide with purpose-specific mode import this proterties flexibly and simple proposal: for example, have longer or the zone of the exsiccant season of growth more, grain milk or the green proterties of the strong guarantor of silage importing for improvement, comparatively speaking, in zone, for silage imports the medium green proterties of guarantor with shorter season of growth.In addition, the green potentiality of the guarantor of plant of the present invention can comprise, for example, compare with corresponding control plant, (a) are reduced by at least the production of the specific mRNA of a kind of acc synthase; (b) production of minimizing acc synthase; (c) production of minimizing ethene; (d) postpone the leaf aging; (e) strengthen drought resistance; (f) keep photosynthetic activity for a long time; (g) enhanced transpiration; (h) enhanced stomatal conductance; (i) enhanced CO ₂Assimilation; (j) CO is kept in enhancing ₂Assimilation; Or (k) arbitrary combination of (a)-(j); Deng.

For example, method of the present invention can comprise: a) select at least one acc synthase gene to suddenly change, thus the acc synthase gene that provides at least one to need; B) mutant form with at least one acc synthase gene that needs imports in the plant; And c) express mutant form, thus the green potentiality of guarantor of regulating plant.The plant that generates by such method also is a feature of the present invention.

The degree of protecting in the green potentiality importing plant can be by many factors decisions, for example, select which acc synthase gene, the gene member of sudden change be with heterozygosis or exist with the state that isozygotys, perhaps can be by the member's of this family of deactivation number decision, perhaps can be by the combination decision of 2 or more a plurality of such factor.In one embodiment, select at least one acc synthase gene to comprise the degree (for example, weak (for example, ACS2), medium or strong (for example, ACS6)) of the green potentiality of guarantor of determining needs.For example, ACS2 system can show the weak green phenotype of protecting, and its aging can postpone about 1 week.ACS6 system can show the green phenotype of strong guarantor (for example, leaf is old and feeble can postpone about 2-3 week or more of a specified duration).ACS7 system also can show the green phenotype of strong guarantor (for example, leaf is old and feeble can postpone about 2-3 week or more of a specified duration).For example, the acc synthase gene of the specific acc synthase of selecting to encode, described acc synthase is SEQ ID NO:7 (pACS2), SEQ ID NO:8 (pACS6), SEQ ID NO:9 (pAC7) or SEQ ID NO:11 (pCCRA178R) for example.In one embodiment, destroyed 2 or more a plurality of acc synthase gene (for example, ACS2 and ACS6), for example, to produce the green phenotype of strong guarantor.In other embodiment, 3 or more a plurality of acc synthase gene have been destroyed.

In case selected the acc synthase gene that needs, just the mutant form with acc synthase gene imports in the plant.In certain embodiments, by transfer, electroporation, microparticle bombardment, homologous recombination or the sexual hybridization of edaphic bacillus-mediation, import mutant form.In certain embodiments, mutant form comprises, for example, heterozygous mutant at least one acc synthase gene, homozygous mutation at least one acc synthase gene, if or selected to surpass an acc synthase gene, then be the combination of homozygous mutation and heterozygous mutant.In another embodiment, mutant form comprise at least one needs antisense, the subsequence that justice or RNA are reticent or disturb the acc synthase gene of configuration is arranged.

Can determine the expression of mutant form of acc synthase gene or the expression of results of mutant form in many ways.For example, can be qualitatively (having or not existing one or more target products) or quantitatively (by monitoring the expression level of one or more target products) detect expression product.In one embodiment, expression product is the rna expression product.The present invention randomly comprises monitoring as this paper pointed nucleic acid or polypeptide expression level, to detect the acc synthase in plant or the plant population.Also can utilize the level of monitoring ethene or ACC, detect the expression or the active inhibition of the mutant form of acc synthase gene.

Except compare the tolerance of raising plant of the present invention to drought stress with control plant, another important aspect of the present invention is possible plant plant of the present invention more to high-density, thereby improve every acre corn yield.In eighties of last century, the raising of every acre corn yield is mainly from the raising to crowded tolerance, described crowded be for example in the corn stress.Adjusting stress method, for example, improve the method for plant to crowded tolerance, also be a feature of the present invention.For example, method of the present invention can comprise: a) select at least one acc synthase gene to suddenly change, thus the acc synthase gene that provides at least one to need; B) mutant form with at least one acc synthase gene that needs imports plant; And c) express mutant form, thus regulate plant stress.The plant that generates by such method also is a feature of the present invention.When the mutant form of the acc synthase gene by needs had reduced the ethylene production in the plant, it is crowded that plant can not felt.Thereby, can plant plant of the present invention to be higher than peasant's density of practice at present.

In yet another aspect, deactivation one or more acc synthase genes as herein described can influence the reaction to disease or pathogenic agent attack.

Regulate the method for the sterility of plant

(for example, female or male sterile) method also is a feature of the present invention to the sterility of adjusting plant.With ability female or male sterile importing plant, allow to produce fast female or male sterile line, for example, be used for commercial breeding plan, for example, when the needs cross-pollination, be used to produce hybrid seed.

Observed the plant that acc synthase knocks out, especially ACS6 knock out with the two plants that knock out of ACS2/ACS6, can release to birth ratio wild-type plant pollen still less, this has hinted and has destroyed ethylene production as the new mode of regulating the plant sterility.

For example, method of the present invention can comprise: a) select at least one acc synthase gene to suddenly change, thus the acc synthase gene that provides at least one to need; B) mutant form with at least one acc synthase gene that needs imports plant; With, c) express mutant form, thus the sterility of regulating plant.The plant that generates by such method also is a feature of the present invention.

If appropriate, all basically above-mentioned features also are applicable to this embodiment, for example, and about the number of destructive acc synthase gene, with the technology in the mutant form importing plant of acc synthase gene, polynucleotide constructs etc.

In a class embodiment,,, can destroy at least one acc synthase gene by point mutation or by comprising antisense, having justice or RNA reticent or disturb the genetically modified constitutive expression of the acc synthase polynucleotide of configuration by the insertion of transposon.Provide ethene by outer seedbed, for example, by spraying 2 chloroethyl phosphoric acid (CEPA) in the suitable etap to plant, the latter can decompose in water to generate ethene, can breed such to be.

In another kind of embodiment, by comprising antisense, have justice or RNA reticent or disturb the genetically modified expression of the acc synthase polynucleotide of configuration under the control of the promotor of induction type, at least one acc synthase gene can be destroyed, sterility can be induced and/or suppress as required like this.In another kind of embodiment, by the tissue-specific promotor (for example, flower pesticide-specific promotor) control comprising antisense, justice arranged or RNA is reticent or the genetically modified expression of the acc synthase polynucleotide of interference configuration down, can destroy at least one acc synthase gene, to generate male sterile plants.Equally, if desired, provide ethene (for example, by spray CEPA), can breed and such be by outer seedbed.

Screening/the sign of plant of the present invention or vegetable cell

Can genotype ground, biochemical ground, phenotype ground or wherein two or more of combination, screen and/or characterize plant of the present invention, there be, do not exist and/or expresses (for example, amount, an adjusting with what determine polynucleotide of the present invention, for example minimizing of comparing with control cells or increase, Deng), the existence of polypeptide of the present invention, do not exist, expression and/or enzymic activity, protect the adjusting of green potentiality, crowded adjusting, and/or the adjusting of ethylene production.Referring to, for example, Figure 19.

By in many well-known technology any, comprise the pcr amplification of genomic nucleic acid sequence and genomic nucleic acid sequence or expression the nucleotide sequence with specific markers probe hybridization (for example, southern blotting technique, RNA trace, spot or slot blot, Deng), can carry out gene type assay.

For example, the proterties utility system (TraitUtiliry System for Corn) of the corn of Pioneer Hybrid Int. exploitation is the screening strategy of strong PCR-based (TUSC), insert with the Mu transposon that is used for differentiating specific gene, and need not observable phenotype.This system uses for example TIR-PCR, and wherein a kind of PCR primer is derived from target gene, and another kind of (Mu-TIR) is from inverted terminal repeat sequence (TIR) district of Mu.Use the primer the PCR reaction of these DNA that collect from the plant that contains Mu in a large number, can identify the amplification of success by using the southern blotting technique hybridization of target gene as probe.Then, screen the individuality in the positive storehouse, in target gene, contain the candidate system that the Mu element inserts to differentiate.In order to determine that the insertion incident is limited to somatocyte or also is present in (and therefore representing heritable variation) in kind of the system, can randomly carry out and the identical PCR/DNA blot hybridization analysis of using the offspring from material standed in original screening.

Also can carry out biochemical analysis, come test example as, the existence of protein production, do not exist or regulate (for example, reduce or increase) (for example, by ELISA, Western blot, etc.), the existence of the ethene of production and/or amount, etc.For example, can reclaim polypeptide expressed, and by in many methods well-known in the art any, (for example comprise ammonium sulfate or ethanol sedimentation, acid extraction, negatively charged ion or cation-exchange chromatography, phosphocellulose chromatography, hydrophobic interaction chromatograph, affinity chromatography, the Mk system that uses any to point out in this article), hydroxyapatite chromatography and lectin chromatogram, from the cell culture of isolating or reorganization, carry out purifying.As required, can use the refolding proteins step, finish the configuration of maturation protein.At last, can in last purification step, adopt high performance liquid chromatography (HPLC).Except the document of pointing out above, multiple purification process is well-known in the art, comprise, for example, those that in following document, put down in writing: Sandana (1997) Bioseparation of Proteins, Academic Press, Inc.; With (1996) such as Bollag Protein Methods, the 2 editionsWiley-Liss, NY; Walker (1996) The Protein Protocols HandbookHumana Press, NJ, Harris and Angal (1990) Protein Purification Applications:A Practical ApproachIRL Press atOxford, Oxford, England; Harris and Angal Protein Purification Methods:A Practical ApproachIRL Press at Oxford, Oxford, England; Scopes (1993) Protein Purification:Principles and Practice the 3rd editionSpringer Verlag, NY; Janson and Ryden (1998) Protein Purification:Principles, High Resolution Methods and Applications, the 2nd editionWiley-VCH, NY; And Walker (1998) Protein Protocols on CD-ROMHumana Press, NJ.

Can from cell extract, reclaim and measure chemical reagent, for example, ethene, ACC etc.For example, can pass through the inside concentration of gas chromatography-mass spectrometry ACC in the acid soil plant extract, its ethene after as decomposition in alkaline hypochlorite solutions etc.By for example gas chromatography-mass spectrum etc., can determine the concentration of ethene.Referring to, for example, Nagahama, K., Ogawa, T., Fujii, T., Tazaki, M., Tanase, S., Morino, Y. and Fukuda, H. (1991) " Purification and properties of an ethyleneformingenzyme from Pseudomonas syringae " J.Gen.Microbiol.137:2281-2286.For example, use and for example to have assembled, can measure ethene based on the post (for example HP-PLOTA1203 capillary column) of aluminum oxide and the gas chromatograph of flame ionization detector.

Phenotype analytical comprises, for example, analyzes the variation of chemical constitution (for example, as at biochemical analysis under as described in), form or the physiological property of plant.For example, metamorphosis can include but not limited to, the raising of the delay of the green potentiality of the guarantor of raising, leaf aging, the raising of drought resistance, crowded resistance etc.Physiological property can comprise, for example, and photosynthesis, enhanced transpiration, the stomatal conductance of raising, enhanced CO that enhanced continues ₂Assimilation, longer CO ₂Keeping of assimilation, etc.

Can use many mensuration to monitor and protect green potentiality.For example, mensuration includes but not limited to that for example level of chlorophyll, DNA, RNA and/or the protein content of leaf is measured and measured to visual control monitoring photosynthesis.

Plant of the present invention

Vegetable cell of the present invention includes but not limited to, meristematic cell, and type i, Type II and type-iii callus, immature embryo and gametid [cell be sporule, pollen, sperm and ovum for example.In certain embodiments, vegetable cell of the present invention is from dicotyledons or monocotyledons.By vegetable cell regenerated plant of the present invention also is feature of the present invention.

In one embodiment, vegetable cell is in comprising the plant that protects green potentiality phenotype, for example, and hybrid plant.In another embodiment, vegetable cell is in the plant that comprises sterile phenotype (for example, male sterile phenotype).By a series of breeding production operation, the destructive acc synthase gene can be moved to another department of botany from a department of botany.For example, comprise one or more acc synthase gene destructive plants and control plant sexual hybridization, can generate hybrid plant by making.

The vegetable cell that knocks out also is a feature of the present invention.In first aspect, the invention provides the vegetable cell that knocks out isolating or reorganization, it at least one endogenous acc synthase gene (for example comprises at least one, nucleotide sequence or its complementary sequence, itself and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6) or SEQ ID NO:3 (gACS7) for example have at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or higher sequence identity) in destruction.The control plant cell corresponding with lacking this destructive compared, and this energy of rupture suppresses proteic expression of at least a acc synthase or activity.In one embodiment, at least one endogenous acc synthase gene comprises 2 or more a plurality of endogenous acc synthase gene.In another embodiment, at least one endogenous acc synthase gene comprises 3 or more a plurality of endogenous acc synthase gene.In certain embodiments, the vegetable cell that at least one destruction can cause knocking out is compared with the control plant cell, reduces ethylene production.

In one aspect of the invention, the destruction of the acc synthase gene in the vegetable cell comprises one or more transposons, and wherein one or more transposons are at least one endogenous acc synthase gene.In yet another aspect, destroy the one or more point mutation that are included at least one endogenous acc synthase gene.Randomly, destruction is the destruction of isozygotying at least one acc synthase gene.Perhaps, destruction is the destruction of the heterozygosis at least one acc synthase gene.In certain embodiments, relate to and surpass an acc synthase gene, and exist above a destruction, this can comprise the destruction of isozygotying, the destruction of heterozygosis or the destructive combination of destruction of isozygotying and heterozygosis.Be the part of " transposon and TILLING " also referring to title in this article.

In another embodiment, by suppressing the expression of acc synthase gene, the destruction that has produced acc synthase gene.For example, import in the vegetable cell by the polynucleotide sequence that at least one is comprised acc synthase nucleotide sequence or its subsequence, thereby at least one polynucleotide sequence is connected on the promotor so that justice or antisense orientation to be arranged, produced the vegetable cell that knocks out.Polynucleotide sequence and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6), SEQ ID NO:3 (gACS7), SEQ ID NO:4 (cACS2), SEQ ID NO:5 (cACS6), SEQ ID NO:6 (cACS7) or SEQ ID NO.:10 (CCRA178R) or its subsequence or its complementary sequence have for example at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or higher sequence identity.For example, by importing at least one polynucleotide sequence, it is included as one or more subsequences that RNA is reticent or disturb designed acc synthase nucleotide sequence, can produce the vegetable cell that knocks out.Polynucleotide randomly comprise carrier, expression cassette etc.In yet another aspect, produced the vegetable cell that knocks out by homologous recombination.Also referring to the part of title in this article for " antisense, justice is arranged, RNA is reticent or disturb configuration " and " homologous recombination ".

Comprising the plant that knocks out that protects green potentiality phenotype is a feature of the present invention.Usually, the green potentiality phenotype of the guarantor in the plant that knocks out is derived from the destruction of at least one endogenous acc synthase gene.In one embodiment, destruction comprises one or more transposons, and compares with corresponding control plant, and this energy of rupture suppresses proteic expression of at least a acc synthase or activity.In another embodiment, destruction comprises one or more point mutation, and compares with corresponding contrast, can suppress proteic expression of at least a acc synthase or activity.In certain embodiments, at least one endogenous acc synthase gene comprises nucleotide sequence or its complementary sequence, and itself and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6) or SEQ ID NO:3 (gACS7) or its complementary sequence for example have at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or higher sequence identity.In certain embodiments, the plant that knocks out is a hybrid plant.

The present invention has also characterized the plant that knocks out, and it comprises the transgenic plant with the green potentiality phenotype of guarantor.For example, transgenic plant of the present invention comprise the green potentiality phenotype of the energy genetically modified guarantor of ethene suppressing synthetic that is derived from least one importing, the transgenosis of wherein said at least one importing comprises the nucleotide sequence of can encode at least a acc synthase or its subsequence, this nucleotide sequence and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6), SEQ ID NO:3 (gACS7), SEQ ID NO:4 (cACS2), SEQ ID NO:5 (cACS6), SEQ ID NO:6 (cACS7) or SEQ ID NO:10 (CCRAl78R) or its subsequence or its complementary sequence have for example at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or higher sequence identity, and can modify the expression or the activity level of at least a acc synthase.Usually, this configuration is that the reticent or interference configuration of justice, antisense or RNA is arranged.Transgenic plant of the present invention can also comprise the green potentiality phenotype of the energy genetically modified guarantor of ethene suppressing synthetic that is derived from least one importing, the transgenosis of wherein said at least one importing comprises the nucleotide sequence of the subsequence of at least a acc synthase of encoding, this at least a acc synthase and SEQ ID NO:7 (pACS2), SEQ ID NO:8 (pACS6), SEQID NO.:9 (pACS7) or SEQ ID NO:11 (pCCRAl78R) or its conservative variant have for example at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or higher sequence identity, and be the reticent or interference configuration of RNA, and can modify the expression or the activity level of at least a acc synthase.In one aspect, transgenosis randomly comprises the promotor (for example, the promotor of leaf-specific promotor, arid-induction type, etc.) of tissue-specific promotor or induction type.

The present invention has also characterized the plant that knocks out with sterile phenotype, for example, and male or female sterile phenotype.Thereby a class embodiment provides the plant that knocks out, and it comprises and is derived from least one destructive male sterile phenotype at least one endogenous acc synthase gene.Compare with corresponding control plant, this energy of rupture suppresses proteic expression of at least a acc synthase or activity.For example, can be individually or with combination (for example, ACS6 or ACS2 and ACS6) arbitrarily, destroy ACS2, ACS6 and ACS7.Usually, compare with control plant, at least one destruction can cause the plant that knocks out to reduce ethylene production.

In one embodiment, at least one destruction is included in the one or more transposons at least one endogenous acc synthase gene.In another embodiment, at least one destruction is included in the one or more point mutation at least one endogenous acc synthase gene.In other embodiment, by importing at least one polynucleotide sequence, it is included as one or more subsequences (perhaps, so that justice or antisense configuration to be arranged) that RNA is reticent or disturb designed acc synthase nucleotide sequence, at least one is destroyed importing in the plant that knocks out.As point out that polynucleotide sequence is randomly under control induction type or tissue-specific (for example, flower pesticide-specific) promotor.

In one embodiment, male sterile phenotype comprises the plant that knocks out is compared minimizing with control plant pollen release.For example, compare with the pollen that control plant discharges, it is maximum 50%, 25%, 10%, 5% or 1% that the plant that knocks out can discharge, perhaps it can discharge can not detected pollen.

The present invention has also characterized the plant that knocks out, and it comprises the transgenic plant with male sterile phenotype.For example, transgenic plant of the present invention comprise the genetically modified male sterile phenotype of energy ethene suppressing synthetic that is derived from least one importing, the transgenosis of wherein said at least one importing comprises the nucleotide sequence of can encode at least a acc synthase or its subsequence, this nucleotide sequence and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6), SEQ ID NO:3 (gACS7), SEQ ID NO:4 (cACS2), SEQ ID NO:5 (cACS6), SEQ ID NO:6 (cACS7) or SEQ ID NO:10 (CCRAl78R) or its subsequence or its complementary sequence have for example at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or higher sequence identity, and can modify the expression or the activity level of at least a acc synthase.Usually, this configuration is that the reticent or interference configuration of justice, antisense or RNA is arranged.As point out that transgenosis randomly comprises the promotor of tissue one specific promotor (for example, flower pesticide-specific promotor) or induction type.

In method and composition of the present invention, can use all basically plants.These species include but not limited to the member of following section: Gramineae (Gramineae in the past (Graminae) comprises Zea mays (corn), rye, triticale, barley, grain, rice, wheat, oat etc.); Pulse family (Leguminosae) (comprising pea, beans, root of Szemao crotalaria, peanut, yam bean (yam bean), cowpea, multitude's beans (velVet beans), soybean, trifolium, clover, lupine, vetch, lotus, Melilotus suaveolens Ledeb., Chinese wistaria, sweet pea etc.); Composite family (Compositae) (the maximum section of vascular plant, comprise at least 1,000 genus, comprise for example Sunflower Receptacle of important cash crop) and the Rosaceae (Rosaciae) (comprise immature fruit of Juteleaf Raspberry, apricot, almond, peach, rose etc.), and the nut plant (comprises English walnut, Semen Caryae Cathayensis, hazelnut etc.), forest (comprises Pinus (Pinus), oak belongs to (Quercus), Pseutototsuga, sequoia sempervirens belongs to (Sequoia), Populus (Populus) etc.), with other common crop plants (for example, cottons, Chinese sorghum, turfgrass, tomato, potato, pepper, sprouting broccoli, Caulis et Folium Brassicae capitatae etc.).

Other plant, and point out above those, comprise the plant from following genus: Acamptoclados, Stem of Lovely Achnatherum belongs to, Achnella, a phoenix Panicum, Aegilops, Aegopgon, Agroelymus, Agrohordeum, Agropogon, Agropyron, Agrositanion, Agrostis, Hairgrass, Allolepis, Mao Yingcao belongs to, amur foxtail belongs to, Amblyopyrum, Ammophila, Ampelodesmos, Amphibromus, Amphicarpum, Amphilophis, Anastrophus, Ana therum, Andropogon, Anema thele, leymus, Anisantha, Anthaenantia, Anthephora, Anthochloa, Anthoxanthum, Apera, Root of Common Apluda belongs to, Archtagrostis, Arctophila, Argillochloa, Aristida, oatgrass, hispid arthraxon belongs to, Arthrostylidium, Arundinaria, Arundinella hirta (Thunb.) Tanaka belongs to, giantreed belongs to, Aspris, Atheropogon, Avena (for example, oat), Avenella, Avenochloa, Avenula, carpetweed belongs to, the Ce Sinobambusa, Beckmannia, Blepharidachne, Blepharoneuron, hole Ying grass belongs to, gramagrass belongs to, Brachiaria, short grain husk grass belongs to, false bromegrass belongs to, Ling Fengcao belongs to, Brizopyrum, Bromelica, Bromopsis, Brome, buffalo grass, Bulbilis, Chee Reedbentgrass belongs to, Calamovilfa, Campulosus, Capriola, brookgrass belongs to, Catapodium, Cathestecum, Cenchropsis, Cenchrus, the garden sorrel awns belongs to, Cera tochloa, Chaetochloa, Chasmanthium, side's Sinobambusa, Chionochloa, Radix seu Caulis Embeliae Parviflorae belongs to, Chondrosum, Chrysopon, Chusquea, Dan Ruicao belongs to, Cladoraphis, empty axle thatch belongs to, Coix, Mudgrass, Colpodium, Coridochloa, Cornucopiae, cattail and reed belongs to, Corynephorus, Cottea, Critesion, pricklegrass belongs to, Ctenium, Cutandia, Cylindropyrum, Cymbopogon, Cynodon, Cynosurus, Cytrococcum, orchardgrass, talon eria, flat Chinese silvergrass belongs to, Dasyochloa, Dasyprum, Davyeila, male bamboo belongs to, hairgrass belongs to, Desmazeria, wild blue or green thatch belongs to, Diarina, Manchurian Beakgrain belongs to, two type Pittosporums, the honeysuckle grass belongs to, Dichelachne, Diectomus, knotgrass, the wild goose thatch belongs to, Dimorpostachys, curved fringe grass belongs to, two bran grass belong to, Dissanthelium, Dissochondrus, Distichlis, sickle preface Sinobambusa, Dupoa, Dupontia, Echinochloa, Ectosperma, Ehrharta, Herba Eleusines Indicae belongs to, Elyhordeum, Elyleymus, Elymordeum, lyme grass belongs to, glue squama standing grain belongs to, Elysitanion, Elytesion, couchgrass belongs to, nine top grass belong to, the intestines moss belongs to, Epicampes, Herba Eragrostidis pilosae belongs to, Herba pteridis vittatae belongs to, Eremopoa, wheat straw belongs to drought, Plumegrass, Ericoma, Erichloa, Eriochrysis, Erioneuron, the class Sorghum, Euclasta, the gold thatch belongs to, intending Jin Mao belongs to, true fringe grass belongs to, the arrow Sinobambusa, festuca, Festulolium, Fingerhuthia, Fluminia, ear bran grass belongs to, Castridium, Caudinia, huge Sinobambusa, Glyceria, Graphephorum, Gymnopogon, Gynerium, ball fringe grass belongs to, Hainardia, Hakonechloa, Haynaldia, Heleochloa, different Avena, Hemarthria compressa belongs to, Hesperochloa, Hesperostipa, Huang Mao belongs to, Hibanobambusa, Hierochloe, Hilaria, Holcus, Homalocenchrus, Hordeum (for example, barley), Hydrochloa, Water Hymenacue belongs to, thatch belongs to bud, Hypogynium, the hedgehog grass belongs to, apart from the flower Panicum, cogon, indocalamus belongs to, the willow leaf indocalamus belongs to, ischaemum, Ixophorus, Koeleria, Korycarpus, Lagurus, Lamarckia, Lasiacis, false Oryza, Sprangletop, Leptochloopsis, Leptocoryphium, thin bran grass belongs to, Leptogon, thin fringe grass belongs to, Lerchenfeldia, silver fringe grass belongs to, Leymostachys, leymus, Limnodea, Lithachne, lolium, Lophochlaena, Lophochloa, Lophopyrum, Ludolfia, Luziola, Lycurus, Lygeum, Maltea, Manisuris, Megastachya, Melica, molasses grass belongs to, Mibora, little grass belongs to, Microlaena, the green bristlegrass Sinobambusa, the chestnut grass belongs to, awns belongs to, Mao Jiancao belongs to, Molinia, Monanthochloe, Monerma, Monroa, muhly belongs to, Nardus, Nassella, Nazia, Neeragrostis, Neoschischkinia, Neostapfia, the class reed belongs to, Nothoholcus, Olyra, Opizia, ask the rice grass to belong to, Orcuttia, Oryza (for example, rice), ricegrass, Otatea, the Yunnan Sinobambusa, Panicularia, Panicum, Pappophorum, false Hemarthria compressa belongs to, Pascopyrum, the class Paspalum, Paspalum, Pennisetum (for example, grain), phalaris arundinacea, Phalaroides, Phanopyrum, Pharus, Phippsia, ladder forage spp, Pholiurus, reed belongs to, Phyllostachys, Piptatherum, Piptochaetium, big bright Sinobambusa, Pleopogon, Pleuraphis, Pleuropogon, annual bluegrass belongs to, Podagrostis, the caput grass belongs to, Dan Xucao belongs to, new wheat straw belongs to, Pseudelymus, Pseudoroegneria, vow Sinobambusa, Ptilagrostis, the alkali thatch belongs to, Pucciphippsia, Redfieldia, Reimaria, Reimarochloa, Rhaphis, Rhombolytrum, Herba Murdanniae Nudiflorae belongs to, roegneria kamoji belongs to, Rostraria, Rottboellia exaltata L. F. belongs to, Rytilix, saccharum, capsule grain husk grass belongs to, red Sinobambusa, Sasaella, the China indocalamus belongs to, Savastana, Schedonnardus, the tooth bran belongs to, splitting the bran thatch belongs to, Schizachyrium scoparium belongs to, splitting the fringe grass belongs to, hard grass belongs to, Scleropoa, Scleropogon, Scolochloa, Scribneria, Secale (for example, rye), the flat Sinobambusa of industry, Sesleria, setaria, Japan's Sinobambusa, Sieglingia, the Yushan Sinobambusa, Tang's Sinobambusa, Sinocalamus, Sitanion, Sorghastrum, sorghum, the rice grass belongs to, Sphenopholis, big oily awns belongs to, mouse tail Castanea, Stapfia, Steinchisma, Herba Stenotaphri helferi belongs to, Stipa, Stipagrostis, Stiporyzopsis, Swallenia, Syn therisma, Taeniatherum, Terrellia, Terrelymus, the oats Sinobambusa, villous themeda belongs to, Thinopyrum, the spool grass belongs to, tigergrass, Torresia, Torreyochloa, Trachynia, Trachypogon, prickle grass belongs to, Trichachne, Trichloris, Tricholaena, Trichoneura, Tridens, Triodia, Triplasis, the grass Nereis, the friction grass belongs to, Trisetobromus, Trisetum, Triticosecale, Triticum (for example, wheat), Tuctoria, Uniola, Urachne, Uralepis, tail bran grass belongs to, Vahlodea, Valota, Vaseyochloa, Ventenata, Vetiveria, Viifa, Vulpia, Willkommia, the Yushan Sinobambusa, Zea (for example, corn), wild rice stem belongs to, Zizaniopsis and Zoysia.

Plant Transformation

By many routine techniquess, nucleotide sequence construct of the present invention (for example, the expression cassette of isolating nucleic acid, reorganization, etc.) can be imported the vegetable cell cultivated or the vegetable cell in the plant organ.For example, these technology include but not limited to infection, transduction, transfection, transposition and conversion.Can be individually or with other polynucleotide, import the nucleotide sequence construct.Can import these other polynucleotide independently, importing altogether perhaps imports or links together with polynucleotide of the present invention.

The technology that is used to transform the higher plant species of broad variety is well-known, and is documented in technology and the scientific literature.Referring to, for example, Payne etc. (1992) Plant Cell and Tissue Culture in Liquid SystemsJohn Wiley ﹠amp; Sons, Inc.NewYork, NY (Payne); Gamborg and Phillips (volume) (1995) Plant Cell, Tissue and Organ Culture; Fundamental MethodsSpringer LabManual, Springer-Yerlag (Berlin Heidelberg New York) is (Gamborg); Croy, (volume) (1993) Plant Molecular BiologyBiosScientific Publishers, Oxford, U.K; Jones (volume) (1995) Plant Gene Transfer and Expression Protocols--Methods in Molecular Biology, Volume 49Humana Press Towata NJ, and other, etc., and, for example, Weising etc. (1988) Ann.Rev.Genet.22:421.Also referring to, March 2 nineteen ninety-five, disclosed title was the WO 95/06128 of " Fertile, Transgenic Maize Plantsand Methods for Their Production ".Can obtain many methods that are used for setting up the protoplastis of transformable protoplastis and subsequent transformation cultivation in the art from many floristics, and incorporated by reference in this article.For example, referring to, Hashimoto etc. (1990) Plant Physiol.93:857; Fowke and Constabel (volume) (1994) Plant ProtoplastsSaunders etc. (1993) Applications of Plant In Vitro Technology Symposium, UPM 16-18; With (1991) such as Lyznik BioTechniques10:295, each piece of writing in them is all incorporated by reference in this article.Can obtain many methods in the art realizes that chloroplast(id) transforms and expresses (for example, Daniell etc. (1998) Nature Biotechnology16:346; (1993) such as O ' Neill The Plant JournaL3:729; Maliga (1993) TIBTECH11:1).

For example, the electroporation of use such as plant protoplast or embryo generation callus, PEG perforation, particle bombardment, silica fibre send to be passed or the technology of microinjection, nucleotide sequence directly can be imported in the genomic dna of vegetable cell, perhaps can use ballistic method (for example particle bombardment) that the nucleotide sequence construct is directly imported in the plant tissue.Exemplary particle includes but not limited to tungsten, gold, platinum etc.Perhaps, by using the viral vector infection cell, or by combination nucleotide sequence construct and suitable T-DNA flanking region, and import in the conventional Agrobacterium tumefaciens host carrier, can import the nucleotide sequence construct.When the infectation of bacteria vegetable cell, edaphic bacillus host's invasive function can instruct construct and the insertion of the mark that closes on to plant cell dna.Referring to, U.S. Patent number 5,591,616.

Microinjection technique is known in the art, and be documented in preferably in science and the patent documentation (referring to, for example, Jones (volume) (1995) Plant Gene Transfer and Expression Protocols--Methods in Molecular Biology, Volume 49Humana Press Towata NJ, and other).The method of using polyethylene glycol precipitation to import the nucleotide sequence construct is documented in (1984) such as Paszkowski EMBO JAmong the 3:2717.Electroporation technology is documented in (1985) such as Fromm Proc Nat ' l Acad Sci USAAmong the 82:5824.Impact transformation technology and be documented in (1987) such as Klein NatureAmong the 327:70; With Weeks etc. Plant Physiol102:1077 and Tomes, D. etc., IN:PlantCell, Tissue and Organ Culture:Fundamental Methods, editor O.L.Gamborg and G.C.Phillips, the 8th chapter, 197-213 page or leaf (1995).(also referring to Tomes etc., U.S. Patent number 5,886,244; 6,258,999; 6,570,067; 5,879,918).

Also can use is that the virus vector of plant virus imports polynucleotide of the present invention in the plant.Usually, virus is used as the carrier of expressing exogenous DNA array in instantaneous mode in plant host.Participant causes the agrobacterium-mediated conversion of the stable integration of dna sequence dna in Plant Genome to form contrast, and it is reproducible and expression that the common dispense with dyeing body of virus vector is integrated.Plant viral vector can provide many advantages, more specifically: and a) the genomic DNA of operational virus copy easily in intestinal bacteria, and when needed, carry out in-vitro transcription, to generate infective RNA copy; B) can be easily naked DNA, RNA or virion be imported in the leaf of mechanically wound of whole plant; C) viral genome of each cell high copy number can cause the high expression level of the gene that imports; D) various virus strain can easily infect ordinary laboratory plant species and monocotyledons and dicotyledons crop species; E) infection of complete plant can allow the repetition sample of tissue of single library clone; F) recovery of recombinant virus particle and purifying are simply and fast; And g) because under the situation that does not have karyomit(e) to insert, duplicate, can the occurrence positions effect so express.Referring to, for example, Scholthof, Scholthof and Jackson, (1996) " Plant Virus genevectors for transient expression of foreign proteins inplants, " Annu.Rev.of Phytopathol.34:299-323.

Plant virus can be caused numerous disease, the most mottled damage of common leaf, promptly so-called mosaic disease.Other symptom comprises withered spot, distortion, other branch and general leaf yellow or reddening.Known plants virus can infect the species of all main food crop and most of gardening purposes.Host range is different with virus; some viruses can (for example infect wider host range; alfalfa mosaic virus can infect 400 species that surpass in 50 plant sections), and other have a narrower host range, are limited to single species (for example barley yellow mosaic virus) sometimes.On the host's that can in method and composition of the present invention, use the basis, select appropriate carriers.

In certain embodiments of the invention, carrier for example comprises plant virus, RNA (strand or double-stranded) or DNA (strand or double-stranded) virus.The example of such virus includes but not limited to; for example, alfalfa mosaic virus; brome mosaic virus; capillovirus; carnation latent virus; carnation mottle virus; cauliflower mosaic virus; linear viral; cowpea mosaic virus; cryptovirus; the Flos Cucurbitae mosaic virus; Dianthovirus; broad bean wilt virus; Fijivirus; the fungi shape virus of handing over the baton; Geminivirus; hordeivirus; Deng the unstable ring spot virus of axle; yellow dwarf virus; machlovirus; maize chlorotic dwarf virus; maize rayado fino virus; necrosis virus; nepovirus; parsnip yellow fleck virus; pea enation mosaic virus; potato virus X; marmor upsilon; reovirus; rhabdovirus; bean mosaic virus 4; thin virus; tobacco mosaic virus (TMV); Tobacco rattle virus; tomato spotted wilt virus; tomato bushy stunt virus; turnip yellow mosaic virus etc.

Usually, plant virus can be encoded and be begun to infect, duplicates with whole body and propagate required multiple protein, for example coat protein, cofactor, replicative enzyme and floating preteins.Can the many so proteic nucleotide sequences of coding be public's general knowledge, and can from many databases, obtain, for example (Genbank: can from World Wide Web, obtain at ncbi.nlm.nih.gov/genbank/; Or EMBL: can from World Wide Web, obtain) at ebi.ac.uk.embl/.

At the described direct transformation technology of dna molecular, referring to for example, Jones compiled (1995) above the method for using the sequence of plant-derived virus to transform plant and vegetable cell comprised Plant Gene Transfer and Expression Protocols, Humana Press, Totowa, NJ.In addition, virus sequence can be cloned near the T-DNA border sequence, and infect importing by agrobacterium-mediated conversion or edaphic bacillus.

By using the mechanical inoculation of technology well-known in the art, also can import and comprise the plant viral vector virion of (it comprises polynucleotide of the present invention); About detailed scheme, referring to, for example, Cunningham and Porter compile (1997) Methods in Biotechnology, Vol.3.Recombinant Proteins from Plants: Production and Isolation of Clinically Useful CompoundsIn brief, for experiment purpose, with silicon carbide (silicon carbide) preparation fresh plant leaf powder, the solution of the virus of virus inoculation transcript or housing parcel, and friction gently then.The extensive adaptation that is used to infect crop plants also is well-known in the art, and generally comprise and use mower or other mechanisms mechanically to flood leaf, viral suspension is sprayed in the location subsequently, or sprays buffered high pressure virus/silicon carbide suspension to leaf.Any above-mentioned technology can be adapted to carrier of the present invention, and according to the scale of the plant virus of selecting and host species and specific Transformation Application, can be used for substituting application.

In some embodiments, agrobacterium-mediated transformation technology can be used for acc synthase sequence of the present invention or subsequence are transferred to transgenic plant.The conversion of edaphic bacillus-mediation can be widely used for transforming dicotyledons; But some monocotyledons also can be transformed by edaphic bacillus.For example, the edaphic bacillus of rice conversion is documented in (1994) such as Hiei Plant J.6:271; U.S. Patent number 5,187,073; U.S. Patent number 5,591,616; Li etc. (1991) Science in China34:54; With (1990) such as Raineri Bio/Technology8:33.Corn, barley, triticale and the asparagus (Xu etc. (1990) that transform by agrobacterium-mediated conversion have also been described Chinese J Bot2:81).

Agrobacterium-mediated transformation technology has utilized the tumour of Agrobacterium tumefaciens-induce (Ti) plasmid integration to advance in the vegetable cell genome with the ability in the target nucleic acid corotation shift-in vegetable cell.Usually, produced expression vector, wherein target nucleic acid (acc synthase RNA configuration nucleic acid for example of the present invention) has been connected to advance in the plasmid of self-replicating, it also contains the T-DNA sequence.The T-DNA sequence is generally at flank linking objective expression cassette nucleic acid, and comprises the integration sequence of plasmid.Except expression cassette, T-DNA also generally comprises flag sequence, for example, and antibiotics resistance gene.Then, the plasmid transfection that will have T-DNA and expression cassette advances in the edaphic bacillus cell.Usually, for transformed plant cells effectively, the Agrobacterium tumefaciens bacterium also has the vir zone of the necessity in the karyomit(e) on plasmid or that be integrated into it.About the discussion of agrobacterium-mediated conversion, referring to, Firoozabady and Kuehnle, (1995) Plant Cell Tissue and Organ Culture Fundamental Methods, Gamborg and Phillips (volume).

The transformation technology of Agrobacterium tumefaciens-mediation is documented in the scientific literature preferably.Referring to, Horsch etc. for example, Science233:496-498 (1984) and Fraley etc., Proc.Natl.Acad.Sci(USA) 80:4803 (1983).Though edaphic bacillus is mainly used in dicotyledons, some monocotyledons also can be transformed by edaphic bacillus.For example, U.S. Patent number 5,550,318 edaphic bacilluss of having described corn transform.

Other transfection or method for transformation comprise: the conversion of (1) rhizobiaceae-mediation (referring to, for example, Lichtenstein and Fuller In:Genetic Engineering, vol.6, PWJ Rigby compiles London, Academic Press, 1987; And Lichtenstein, C.P., and Draper, J .In:DNA Cloning, Vol.II, D.M.Glover compiles Oxford, IRI Press, 1985); Application PCT/US87/02512 (WO88/02405, on April 7th, 1988 is open) rhizobiaceae strain A4 and its Ri plasmid and the purposes of Agrobacterium tumefaciens carrier pARC8 or pARC16 described, the DNA absorption of (2) liposome-mediation (referring to, for example, Freeman etc. Plant CellPhysiol.25:1353,1984) and (3) vortex method (referring to, for example, Kindle, Proc.Nat ' l. Acad.Sci. (USA)87:1228, (1990).

As Zhou etc., Methods in Enzymology, 101:433 (1983); D.Hess, Intern.Rev.Cytol., 107:367 (1987); Luo etc., Plant Mol. Biol. Reporter, 6:165 (1988) is described, by directly DNA being changed in the pollen, also DNA can be imported in the plant.As Pena etc., Nature325:274 (1987) is described, by DNA being injected in the reproductive organ of plant, can obtain the peptide coding expression of gene.As Neuhau s etc., Theor.Appl.Genet., 75:30 (1987); With Benbrook etc., in Proceedings Bio Expo.1986, Butterworth, Stoneham, Mass., 27-54 page or leaf (1986) is described, also dna direct can be injected in the cell of immature embryo the rehydration of the embryo that dewaters then.Many plant viruses that can be used as carrier known in the art, it comprises cauliflower mosaic virus (CaMV), Geminivirus, brome mosaic virus and tobacco mosaic virus (TMV).

Other documents of having described the method for suitable transformed plant cells comprise: microinjection, Crossway etc. (1986) Biotechniques 4:320-334; Electroporation, Riggs etc. (1986) Proc.Natl.Acad.Sci.USA 83:5602-5606; The conversion of edaphic bacillus-mediation, referring to for example, Townsend etc., United States Patent (USP) 5,563,055; Direct gene shifts, and Paszkowski etc. (1984) EMBO J.3:2717-2722; Quicken with peening particle, referring to for example, Sanford etc., United States Patent (USP) 4,945,050; Tomes etc. (1995) in Plant Cell, Tissue, and Organ Culture:Fundamental Methods, ed.Gamborg and Phillips (Springer-Verlag, Berlin); With (1988) Biotechnology 6:923-926 such as McCabe.Also referring to (1988) Annual Rev.Genet.22:421-477 such as Weissinger; Sanford etc. (1987) ParticulateScience and Technology 5:27-37 (onion); Christou etc. (1988) Plant Physiol.87:671-674 (soybean); McCabe etc. (1988) Bio/Technology 6:923-926 (soybean); Datta etc. (1990) Biotechnology 8:736-740 (rice); Klein etc. (1988) Proc.Natl.Acad.Sci.USA 85:4305-4309 (corn); Klein etc. (1988) Biotechnology6:559-563 (corn); Klein etc. (1988) Plant Physiol.91:440-444 (corn); Fromm etc. (1990) Biotechnology 8:833-839; (1984) Nature (London) 311:763-764 such as Hooydaas-Van Slogteren; Bytebier etc. (1987) Proc.Natl.Acad.Sci.USA 84:5345-5349 (Liliaceae (Liliaceae)); (1985) in The ExperimentalManipulation of Ovule Tissues such as De Wet, (Longman, New York) such as ed.G.P.Cha pman, 197-209 page or leaf (pollen); Kaeppler etc. (1990) Plant CellReports 9:415-418; With (1992) Theor.Appl.Genet.84:560-566 (conversion of whisker (whisker)-mediation) such as Kaeppler; D.Halluin etc. (1992) Plant Cell 4:1495-1505 (electroporation); (1995) Annals of Botany75:407-413 (rice) such as Li etc. (1993) Plant CellReports 12:250-255 and Christou; Osjoda etc. (1996) Nature Biotechnology14:745-750 (corn is undertaken by Agrobacterium tumefaciens); They are all incorporated by reference in this article.

Regeneration isolating, reorganization or transgenic plant

Can cultivate the plant transformed cell and the vegetable cell isolating or reorganization that go out by the Plant Transformation derives from technology, comprise discussed above those, has the genotype that needs (promptly with regeneration, the acc synthase nucleic acid that knocks out) thereby and/or (for example have the phenotype that needs, protect green phenotype, sterile phenotype, anti-crowded phenotype, etc.) whole plant.In supporting the regenerated substratum, cultivation can be by for example selecting or screen the cell of the needs that identify.Then, making cell maturation is plant.For example, such regeneration techniques can rely in the tissue culture growth substratum operation certain plants hormone, the biocide and/or the weedicide mark that usually rely on the nucleotide sequence with needs to import.Perhaps, can screen, the minimizing of the ethylene production of giving with the screening expression of acc synthase and/or active inhibition, by the acc synthase nucleotide sequence that knocks out, etc.Be documented in (1983) such as Evans from the protoplast regeneration plant of cultivating Protoplasts Isolation and Culture, Handbook of Plant Cell Culture, 124-176 page or leaf, Macmillan Publishing Company, NewYork; Davey, (1983) Protoplasts, 12-29 page or leaf, Birkhauser, Basal1983; Dale, Protoplasts(1983) 31-41 pages or leaves, Birkhauser, Basel; And Binding (1985) Regeneration of Plants, Plant ProtoplastsThe 21-73 page or leaf, CRC Press, Boca Raton.From plant callus, explant, organ or its part, also can obtain regeneration.Such regeneration techniques usually is documented in (1987) such as Klee Ann Rev of Plant Phys38:467.Also referring to, for example, Payne and Gamborg.About the conversion and the regeneration of corn, referring to, for example, United States Patent (USP) 5,736,369.

According to the plant tissue culture technique of standard, can be from for example individual cells, callus or leaf dish, regeneration plant expression vector plant transformed cell.This area is well-known, can successfully cultivate various kinds of cell, tissue and organ from nearly all plant, with the complete plant that regenerates.Be documented in Evans etc. from the protoplast regeneration plant of cultivating, Protoplasts Isolation and Culture, Handbook of Plant CellCulture, Macmillilan Publishing Company, New York, 124-176 page or leaf (1983); And Binding, Regeneration of Plants, PlantProtoplasts, CRC Press, Boca Raton, 21-73 page or leaf (1985).

As Horsch etc., Science, 227:1229-1231 (1985) is described, can contain the plant of the foreign gene that is imported by edaphic bacillus from the leaf explant regeneration.After the edaphic bacillus conversion, generally explant is transferred to and selected on the substratum.The technician can recognize, selects substratum to depend on that common transfection advances the selective marker in the explant.As Fraley etc., Proc.Nat ' l.Acad.Sci. (U.S.A)., 80:4803 (1983) is described, in the method, makes transformant under the situation that has selective reagents to exist, and grows in inducing the stem regenerated substratum of plant species to be transformed.This method generally can produce stem, for example,, then the stem (they generally are that for example about 1-2cm is long) of these conversions is transferred in suitable root-inducing culture in week at 2-4, and the latter is contained selective reagents and microbiotic, to stop bacterial growth.Usually, in root and stem substratum, keep selective pressure.

Usually, transformant can grow root in week at about 1-2, and forms plantlet.After plantlet reaches about 3-5cm height, they are placed aseptic soil in the fiber can.Those skilled in the art will appreciate that, use different acclimation methods to obtain the conversion plant of different plant species.For example, grow root and stem after, the cutting and the somatic embryo of plant transformed changed in the substratum, to produce plantlet.Selection and regenerated about plant transformed are described, referring to, for example, Dodds and Roberts (1995) Experiments in Plant Tissue Culture, the 3rd edition, Cambridge University Press.Transgenic plant of the present invention can be that can educate or sterile.

Also can obtain regeneration from plant callus, explant, organ or its part.Such regeneration techniques usually is documented in Klee etc., Ann.Rev.of Plant Phys.38:467-486 in (1987).From one plant protoplast or various explant regeneration plant, be well-known in the art.Referring to, for example, Methods for Plant MolecularBiology, A.Weissbach and H.Weissbach compile Academic Press, Inc., San Diego, Calif. (1988).This regeneration and growth method comprise the steps: the selection of cell transformed and stem, and the stem of conversion is taken root and the growth of plantlet in soil.Cultivate and regeneration about maize cell, usually referring to, The Maize Handbook, Freeling and Walbot compile Springer, New York (1994); Corn and CornImprovement, the 3rd edition, Sprague and Dudley compile, American Society ofAgronomy, Madison, Wisconsin (1988).

The technician can recognize, the expression cassette of reorganization stably be integrated in the transgenic plant and confirm be exercisable after, can it be imported in other plant by sexual hybridization.According to the species that will hybridize, can use in many standard breeding techniques any.

In the crop that nourishes and generates, can breed sophisticated transgenic plant by the preparation cutting or by tissue culture technique, to produce the identical plant of many strains.The transgenic plant that select to need can obtain new variety, and nourish and generate for commercial use.In the crop of seed-breeding, can make sophisticated transgenic plant selfing, the selfing plant of isozygotying with generation.The selfing plant can generate the seed of the heterologous nucleic acids that contains new importing.These seed growths can be made, the plant of selecting phenotype can be produced to generate.Also can make sophisticated transgenic plant and other suitable plant hybridizations, normally another kind of self-mating system of the latter or hybrid system for example comprise isogenic unconverted self-mating system.

The present invention includes the part that obtains from the regenerated plant, for example flower, seed, leaf, branch, fruit etc., prerequisite is that these parts comprise the cell that contains isolating nucleic acid of the present invention.The offspring of regenerated plant, variant and mutant are also included within the scope of the present invention, and prerequisite is the nucleotide sequence that these plants comprise importing.

By the immunoblotting and the DNA detection technology of for example standard, can be at propagating the transgenic plant that nucleic acid screening of the present invention can be expressed selective marker.Usually, also estimate the expression level of the heterologous nucleic acids of transgenic lines.Can tentatively determine the expression of rna level, to differentiate and quantitative expression-male plant.Can use the RNA analytical technology of standard, it comprises the pcr amplification test, and the latter uses and is designed for the Oligonucleolide primers of allogenic RNA template that only increases, and comprises the solution hybridization mensuration of use heterologous nucleic acids-specific probe.Then, the protein immunoblot analysis of the antibody that can react specifically of the application of the invention can be analyzed the protein expression of RNA-male plant.In addition, use specific polynucleotide probes of heterologous nucleic acids and antibody respectively, can realize in situ hybridization and immunocytochemistry, to determine the expressive site in the genetically modified organism according to standard method.Usually, generally screen the nucleic acid of the integration of many transgenic lines, to differentiate and to select to have the plant of optimal expression characteristic.

Some embodiments comprise transgenic plant, and the latter is isozygotied to the heterologous nucleic acids that adds; That is, described transgenic plant contain the nucleotide sequence of 2 interpolations, and it is 1 gene on the homologous genes seat on each right karyomit(e) of karyomit(e).Transgenic plant that can obtain isozygotying by the following method: sexual mating (selfing) contains (aka narrows) transgenic plant of heterozygosis of the heterologous nucleic acids of single interpolation, make the seed germination of some generations, and analyze the plant obtain and control plant (promptly, natural, not genetically modified) compare, to the expression of the change of polynucleotide of the present invention.Also expection is returned to mother plant, with non--genetically modified plant outbreeding, or with transgenosis the plant outbreeding of identical another kind of or multiple proterties.

Also expection, plant transformed can be used for traditional breeding plan, comprises as US5,706,603 and US 5,704,160 disclosed TOPCROSS pollination systems, the content of each in them piece is incorporated by reference in this article.

Except Berger, Ausubel and Sambrook, the general reference useful about vegetable cell clone, cultivation and regenerated comprises: Jones (volume) (1995) Plant Gene Transfer and Expression Protocols--Methods in Molecular Biology, Volume 49Humana Press Towata NJ; Payne etc. (1992) Plant Cell and Tissue Culture in Liquid SystemsJohn Wiley ﹠amp; Sons, Inc.New York, NY (Payne); With Gamborg and Phillips (volume) (1995) Plant Cell, Tissue and Organ Culture; Fundamental MethodsSpringer Lab Manual, Springer-Verlag (BerlinHeidelberg New York) (Gamborg).Many cell culture mediums are documented in Atlas and Parks (volume) The Handbook of Microbiological Media(1993) CRCPress, Boca Raton, FL (Atlas).About other information of culture plant cell, can in the commercial document that obtains, find, for example from Sigma-Aldrich, Inc (StLouis, MO) Life Science Research Cell Culture Catalogue(1998) (Sigma-LSRCCC) and, for example, also from Sigma-Aldrich, Inc (St Louis, MO) Plant Culture CatalogueAnd appendix (1997) (Sigma-PCCS).About other details of culture plant cell, referring to Croy, (volume) (1993) Plant Molecular BiologyBios Scientific Publishers, Oxford, U.K.

" accumulation " of construct and proterties

In certain embodiments, nucleotide sequence of the present invention can use with other herbicide-tolerant polynucleotide combined sequence (" accumulation "), has the plant of the phenotype that needs with generation.Polynucleotide of the present invention can have been piled up the combination of gene arbitrarily or gene, and the combination that produces can comprise a plurality of copies of one or more herbicide-tolerant polynucleotides arbitrarily.Ideal Match can influence one or more proterties; That is to say, can set up some combination, regulate the genetic expression that can influence acc synthase activity and/or ethylene production.Can design other combination, produce the plant with many ideal characters, described proterties includes but not limited to the proterties that animal-feed is required, and for example high oil base is because of (for example, U.S. Patent number 6,232,529); Equilibrated amino acid (hordothionins (U.S. Patent number 5,990,389 for example; 5,885,801; 5,885,802; With 5,703,409); Barley high-lysine (Williamson etc. (1987) Eur.J.Biochem.165:99-106; With WO 98/20122); With homomethionine albumen (Pedersen etc. (1986) J.Biol.Chem.261:6279; Kirihara etc. (1988) Gene 71:359; With (1989) such as Musumura Plant Mol.Biol.12:123)); The digestibility that improves (for example, the storage protein of modification (the U. S. application series number 10/053,410 that submit to November 7 calendar year 2001); And Trx (the U. S. application series number 10/005,429 that submit to December 3 calendar year 2001)), its disclosure is incorporated by reference in this article.Polynucleotide of the present invention also can have been piled up required proterties (for example, bacillus thuringiensis (Bacillus thuringiensis) toxic protein (U.S. Patent number 5,366,892 of insect, disease or Herbicid resistant; 5,747,450; 5,737,514; 5723,756; 5,593,881; Geiser etc. (1986) Gene 48:109); Lectin (Van Damme etc. (1994) Plant Mol.Biol.24:825); Fumonism detoxification genes (U.S. Patent number 5,792,931); Nontoxicity and disease resistance gene (Jones etc. (1994) Science266:789; Martin etc. (1993) Science 262:1432; Mindrinos etc. (1994) Cell 78:1089); Can produce acetolactate synthase (ALS) mutant of Herbicid resistant, for example S4 and/or Hra sudden change; The inhibitor of glutamine synthase, for example phosphinothricin or careless ammonium phosphine (for example, bar gene); And glyphosate resistance (EPSPS gene)); And processing or the required proterties of processed products, for example high oil (for example, U.S. Patent number 6,232,529); Modified oil (for example, fatty acid desaturase gene (U.S. Patent number 5,952,544; WO 94/11516)); Treated starch (for example, ADPG pyrophosphorylase (AGP enzyme), starch synthase (SS), Q-enzyme (SBE) and starch-debranching enzyme (SDBE)); (for example, U.S. Patent number 5.602,321 with polymkeric substance or biological plastics; β-Tong Liuxiemei, multi-hydroxybutyrate salt synthase and Acetoacetyl-CoA reductase (Schubert etc. (1988) J.Bacteriol.170:5837-5847), also can promote the expression of polyhydroxy-alkanoates (PHA)), the disclosure of document is incorporated by reference in this article.People also can make up polynucleotide of the present invention, and (for example male sterile (for example with influencing the agronomy proterties, referring to U.S. Patent number 5.583,210), stem strength, flowering time) or the transformation technology proterties (for example (for example WO 99/61619 for Cycle Regulation or gene target; WO 00/17364; WO99/25821)) polynucleotide, the disclosure of document is incorporated by reference in this article.

By arbitrary method, include but not limited to generate the combination of these accumulations by conventional or TopCross method or genetic transformation cross-breeding plant arbitrarily.If piled up proterties by genetic transformation plant, then can be in time arbitrarily and with order composite object polynucleotide sequence arbitrarily.For example, can be with the transgenic plant that comprise one or more ideal characters as target, import other proterties with the conversion by subsequently.Can be in co-transformation method of particle, and import proterties simultaneously by the herbicide-tolerant polynucleotide that transforms the box combination arbitrarily and provide.For example, if import 2 sequences, then these 2 sequences can be included in the conversion box separately (trans), perhaps are included in (cis) in the same conversion box.The expression of target sequence can be by identical promotor or different promoters driven.In some cases, may need to import the conversion box of the expression that can suppress herbicide-tolerant polynucleotide.This can realize by other arbitrary combination that suppresses box or overexpression box, to produce the proterties combination that needs in plant.

Purposes in breeding method

Plant transformed of the present invention can be used for the plant breeding program.The target of plant breeding is the proterties of the multiple needs of combination in single variety or hybrid.For field crops, these proterties can comprise, for example, to the resistance of disease and insect, to the tolerance of heat and arid, the crop maturation time of shortening, higher output and better agronomy quality.When the many crops of mechanical harvest, the homogeneity of plant characteristic (for example germinateing and association foundation, the speed of growth, ripening degree and plant and fringe height) needs.Traditional plant breeding is to develop important tool new and commercial crops improvement.The present invention includes by making first kind of parental maize plant and second kind of method that the parental maize plant hybridization is produced maize plant, wherein one or both parental maize plants are the plant transformed that can show the green phenotype of guarantor as described herein, sterile phenotype, crowded resistant phenotype etc.

Known in the art and plant breeding technology that be used for the maize plant procedure of breeding includes but not limited to, recurrent selection, group select, mix select, backcross, pedigree breeding, free pollination breeding, the selection of restriction fragment length polymorphism enhanced, the selection of genetic marker enhanced, double haploid and conversion.Often use the combination of these technology.

Usually, in the maize plant procedure of breeding, the exploitation of the self-mating system that the exploitation of corn hybrid need be isozygotied, the evaluation of hybridization that these are and hybridization.Can obtain many analytical procedures, estimate the result of hybridization.The oldest and the most traditional analytical procedure is to observe phenotypic character.Perhaps, can check the genotype of plant.

Use the well-known traditional breeding technology of field of plant breeding, can will use the engineered inherited character of advancing in the specific maize plant of transformation technology to move to during another is.For example, often use the method for backcrossing that transgenosis is moved to the original seed self-mating system from the maize plant that transforms, the offspring who obtains like this can comprise transgenosis.Equally, if use self-mating system to transform, then can the different self-mating system of render transgenic plant hybridization, to produce genetically modified hybrid corn plant.As used herein, based on context, " hybridization " can refer to the process that simple X and Y are hybridized or backcrossed.

In the maize plant procedure of breeding, the exploitation of corn hybrid comprises 3 steps: (1) selects to be used for the plant of first breeding cross from a plurality of germplasms storehouse; (2) make the plant self intersection number generation of selecting from breeding cross, to produce a series of self-mating system, the pure breeding although they differ from one another, and be highly uniform; (3) make the self-mating system of selection and different hybridizations between selfed lines, to hybridize.In the selfing process of corn, the vigor that is can reduce.When 2 different self-mating systems are hybridized, when hybridizing, can be rejuvenated.The homozygosity of self-mating system and homogeneous important consequence are, and be always identical to the hybrid that is generated by hybridizing specific selfing.In case identified the self-mating system that can produce good hybrid, then can ad infinitum breed hybrid seed, as long as can keep selfing parent's homogeneity.

Transgenic plant of the present invention can be used to produce for example interlinear hybrid, ternary hybrid or double hybrid.When 2 hybridizations between selfed lines generate the F1 offspring, can generate interlinear hybrid.Make of the pairing hybridization of 4 self-mating systems, when making 2 F1 hybrids hybridize (AxB) x (CxD) once more then, can generate double hybrid with (AxB and CxD).Can generate the triple crossing hybrid from 3 self-mating systems, wherein make 2 hybridizations between selfed lines (AxB), make the F1 hybrid and the 3rd hybridization between selfed lines (AxB) xC that obtain then.Many hybrid vigors that the F1 hybrid shows and homogeneity can forfeitures in (F2) of future generation.As a result, consumption and do not plant the seed that generates by hybrid.

Antibody

Can use polypeptide of the present invention to produce to the polypeptide of SEQ ID NO:7-SEQ ID NO:9 and SEQID NO.:11 and the specific antibody of its conservative variant.To for example SEQ ID NO:7-9 and 11 and the antibody of related variants polypeptid specificity can be used for for example screening and differentiating purpose, for example, the purpose relevant with activity, distribution and the expression of acc synthase.

By method well-known in the art, can generate antibody to polypeptid specificity of the present invention.Such antibody can include but not limited to, polyclonal, monoclonal, chimeric, humanized, strand, Fab fragment and the fragment that is produced by the Fab expression library.

Polypeptide does not need to be used for the biological activity of antibody producing.Full-length polypeptide, subsequence, fragment or oligopeptides can be antigenic.The peptide that is used for the antibody of inducing specific generally has at least about 10 amino acid and frequent at least 15 or 20 amino acid whose aminoacid sequences.Short chain polypeptides for example, is selected from the polypeptide of SEQ ID NO:7-SEQ ID NO:9 and SEQ ID NO:11, can merge with another kind of albumen, and the latter is keyhole limpet hemocyanin and the antibody that generates at chimeric molecule for example.

The many methods that are used to produce polyclone and monoclonal antibody are known to those skilled in the art, and go for producing antibody to polypeptid specificity of the present invention, for example, corresponding with SEQ ID NO:7-SEQ ID NO:9 and SEQ ID NO:11.Referring to, for example, Coligan (1991) Current Protocols in ImmunologyWiley/Greene, NY; With Harlow and Lane (1989) Antibodies:A Laboratory ManualColdSpring Harbor Press, NY; Stites etc. (volume) Basic and Clinical Immunology(the 4th edition) Lange Medical Publications, Los Altos, CA and the document of wherein quoting; Goding (1986) Monoclonal Antibodies: Principles and Practice(the 2nd edition) Academic Press, New York, NY; Fundamental Immunology, for example, the 4th edition (or more late version), W.E.Paul (volume), Raven Press, N.Y. (1998); With Kohler and Milstein (1975) Nature 256:495-497.Other suitable antibody production techniques are included in and select the recombinant antibodies library in phage or the similar substrates.Referring to, Huse etc. (1989) Science246:1275-1281; And Ward, wait (1989) Nature341:544-546.Specific mono-clonal and polyclonal antibody and antiserum(antisera) usually can be with at least about 0.1 μ M, preferably at least about 0.01 μ M or better and the most usually and preferably 0.001 μ M or better K _DCarry out combination.

Be used to regulate the test kit of protecting green potentiality or sterility

Certain embodiments of the present invention can randomly offer the user as test kit.For example, test kit of the present invention can contain one or more nucleic acid, polypeptide, antibody, diagnosis nucleic acid or polypeptide, for example, antibody, probe groups, for example, and as the cDNA microarray, carrier that one or more are as described herein and/or clone.The most frequently, with kit package in suitable containers.Test kit generally also comprises one or more other reagent, for example, is used for the substrate, mark, primer of marker expression product etc., and pipe and/or other annexes are used to collect the reagent of sample, damping fluid, and hybridization chamber, cover glass, etc.Test kit also randomly comprises specification sheets group or user manual, and they describe in detail, and preferred use reagent constituents is found or the method for applying gene set.When using according to specification sheets, test kit can be used for for example estimating the expression or the polymorphism of plant sample, for example, is used to estimate acc synthase, ethylene production, the green potentiality of guarantor, crowded resistance potentiality, sterility etc.Perhaps, can use test kit to come the green potentiality of guarantor of controlling plant according to the specification sheets that uses at least a acc synthase polynucleotide sequence.

As another example, the sterility that is used to regulate plant (for example, male sterile) test kit comprises container, it is equipped with at least a polynucleotide sequence that comprises nucleotide sequence, wherein this nucleotide sequence and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6), SEQID NO:3 (gACS7), SEQ ID NO:4 (cACS2), SEQ ID NO:5 (cACS6), SEQ ID NO:6 (cAC7) or SEQ ID NO:10 (CCRA178R) or its subsequence or its complementary sequence have for example at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, at least about 99%, about 99.5% or higher identity.Test kit also randomly comprises the illustrative material about the sterility of using at least one polynucleotide sequence controlling plant (for example, male sterile).

Other nucleic acid and protein determination

In the context of the present invention, according to well-known molecular biology method, operation nucleic acid and/or albumen.Detailed protocol about many such methods for example is documented in Ausubel etc. Current Protocols in Molecular Biology(supplementedthrough 2004) John Wiley ﹠amp; Sons, New York (" Ausubel "); Sambrook etc. Molecular Cloning-A Laboratory Manual(the 2nd edition), Vol.1-3, Cold Spring Harbor Laboratory, Cold Spring Harbor, New York, 1989 (" Sambrook ") and Berger and Kimmel Guide to Molecular Cloning TechnIques, Methods in EnzymologyVolume 152 AcademicPress, Inc., San Diego, CA (" Berger ").

Except top document, the scheme of amplification in vitro technology of polynucleotide of the present invention can be used for for example increasing, for example the technology of polymerase chain reaction (PCR), ligase chain reaction (LCR), Q β-replicative enzyme amplification and the mediation of other RNA polymerase (for example, NASBA), can be referring to Mullis etc. (1987) U.S. Patent number 4,683,202; PCR Protocols A Guide To Methods and Applications(volume such as Innis) Academic Press Inc.San Diego, CA (1990) (" Innis "); Arnheim and Levinson (1990) C﹠amp; EN36; The Journal Of NIH Research(1991) 3:81; Kwoh etc. (1989) Proc Natl Acad Sci USA 86, 1173; Guatelli etc. (1990) Proc Natl Acad Sci USA87:1874; Lomell etc. (1989) J Clin Chem35:1826; Landegren etc. (1988) Science241:1077; Van Brunt (1990) Biotechnology8:291; Wu and Wallace (1989) Gene 4:560; Barringer etc. (1990) Gene 89:117 and Sooknanan and Malek (1995) Biotechnology13:563.In the context of the present invention, the additive method that can be used for cloning nucleic acid comprises U.S. Patent numbers 5,426,039 such as Wallace.The improved method summary of pcr amplification large nucleic acids that passes through is in (1994) such as Cheng Nature369:684 and reference wherein.

Utilize multiple comprising, can synthesize some polynucleotide of the present invention based on mononucleotide-and/or the solid phase method of the phosphoramidite coupling chemistry of trinucleotide.For example, by adding activatory monomer and/or tripolymer to the polynucleotide chain sequence of extending, can synthetic nucleic acid sequence.Referring to for example, Caruthers, M.H. etc. (1992) Meth Enzymol211:3.Replace the synthetic sequence that needs, can be from any basically nucleic acid of many commercial channel customizations, The Midland Certified Reagent Company (mcrc@oligos.com) (Midland for example, Texas), The Great American Gene Company (can obtain from World Wide Web) (Ramona at genco.com, CA), ExpressGen, Inc. (can obtain from World Wide Web) (Chicago IL) at expressgen.com, OperonTechnologies, Inc. (can obtain from World Wide Web) (AlamedaCA) at operon.com and many other.

Embodiment

The following examples are used to explain rather than the invention of requirement for restriction protection.

The separation of the corn that embodiment 1:ACC synthase knocks out

Because ethene is associated with the leaf aging that promotes some species, so for example import in the corn in order to protect green potentiality, we have reduced the ethene biosynthesizing in the corn leaf by the deactivation acc synthase gene.Corn acc synthase gene family is by 3 member composition: ACS2, ACS6 and ACS7.For the separating ethene mutant, we use the proterties utility system (TUSC) of corn, the destruction of having screened each member of acc synthase gene family.Up to now, we have determined that by striding across the order-checking of Mu/ACC synthase joint the Mu accurately of 8 mutantion lines (3 ACS6 and 5 ACS2) inserts the site.5 insertion heredity stably; Get the bid at Fig. 2 and to understand their position, this figure has also schematically illustrated ACS7.

In the leaf of those plants that the individual gene member of ACS family exists with heterozygous mutant body state, observed the green phenotype of significant guarantor (referring to Fig. 3, little figure A, B, C and D).When existing, even observed the green phenotype of more significant guarantor (referring to Fig. 4) with homozygous mutation body state.In Fig. 4, will knock out (centre) from the acc synthase of wild-type (left side), heterozygosis and leaf that the acc synthase that isozygotys knocks out (right side) covered 7 days in the dark.The leaf of the plant that knocks out from the acc synthase that isozygotys has shown the bigger green proterties of guarantor of leaf that the acc synthase than heterozygosis knocks out, and has shown the green proterties of the guarantor bigger basically than the leaf of wild-type plant.

The degree of the green potentiality of guarantor that import is that the gene member is specific.As a result, (for example, sudden change ACS6) imports together, and (for example, sudden change ACS2) will import together and will protect green phenotype and another member not too significantly will to protect green proterties and a member by force.Therefore, the degree of the green potentiality of guarantor in the introgressive line will be subjected to the control of following factor: the gene member who has imported which sudden change, the gene member of sudden change be with heterozygosis or exist with the state that isozygotys, number (for example, the ACS2/ACS6 double-mutant has the green phenotype of strong guarantor) with the member of this family of deactivation.The proterties relevant with the hybrid orthostatic (standability) that improves comprises the resistance to stalk rot and leaf blight, the stem strength of heredity, short plant height and fringe position and the green potentiality of high guarantor.

Usually, the leaf experience is from beginning through expansion the final general progress that finishes with aging.In expansion process, the carbon fixation ability also increases, and finally is reduced to low-level between whole senescence phase.Referring to, for example, Gay AP and Thomas H (1995) Leaf developmentin Lolium temulentum:photosynthesis in relation to growth andsenescence. New Phytologist130:159-168.This is relevant especially with the cereal species, and wherein yield potential depends on the solid carbon of plant to a great extent and carbon is stored in the seed ability of the form of starch (mainly with).The speed that starts old and feeble selection of time and its progress all has remarkable influence to the total carbon of the specific leaf that finally helps plant.Referring to, for example, Thomas H and HowarthCJ (2000) Five ways to stay green. Journal Of Experimental Botany51:329-337.This is relevant especially with those crops that the adverse environment condition that can induce too early leaf aging can reduce yield potential.Protecting green is the general terms that is used to describe phenotype, and it is compared with standard reference, can postpone leaf aging (by the yellow of the leaf relevant with chlorophyll degradation, can the most easily distinguish) thus.Referring to, for example, Thomas and Howarth, the same.In Chinese sorghum, identified the green genotype of several guarantors, it can show the delay of leaf aging in grain milk and ripening process.Referring to, for example, Duncan RR waits (1981) Descriptive comparison of senescentand non-senescent sorghum genotypes. Agronomy Journal73:849-853.In addition, under the condition of limited water availability, this generally can quicken leaf aging (for example, Rosenow DT and Clark LE (1981) Drought tolerance insorghum.In:Loden HD, Wilkinson D, volume Proceedings of the 36th Annual corn and sorghum industry research conference, 18-31), these genotype can keep more greenery subregion, and (for example can continue grouting normally, McBee GG waits (1983) Effect of senescence and non-senescenceon carbohydrates in sorghum during late kernel maturity states. Crop Science23:372-377; Rosenow DT waits (1983) Drought-tolerant sorghum and cotton germplasm. Agricultural Water Management7:207-222; With Borrell AK, Douglas ACL (1996) Maintaining green leaf area in grain sorghum increases yieldin a water-limited environment.In:Foale MA, Henzell RG, Kneipp JF compiles Proceedings of the third Australian sorghum Conference.Melbourne:Australian Institute of Agricultural Science, Occasional Publication No.93).Protect green phenotype also as the choice criteria of the corn variety of exploitation improvement, especially about the exploitation of drought tolerance.Referring to, for example, Russell WA (1991) Genetic improvement of maize yields. Advances in Agronomy46:245-298; With Bruce etc., (2002), Molecularand physiological approaches to maize improvement for droughttolerance, Journal of Experimental Botany, 53 (366): 13-25.

The guarantor who has described 5 kinds of fundamental difference types is green.Referring to, for example, Thomas H and Smart CM (1993) Crops that stay green. Annals of Applied Biology123:193-219; With Thomas and Howarth, the same.In type A guarantor is green, has postponed the startup of old and feeble program, but carried out with normal speed then.In the type B guarantor is green,, make progress slower relatively although the startup of old and feeble program does not change.Type C protect green in, although carry out aging (as determined, for example photosynthetic capacity), but still can keep chlorophyll by measuring physiological function with normal speed.It is artificial more that type D protects green, can stop the startup of old and feeble program because kill leaf (promptly by freezing, boil or dry), thereby stop chlorophyllous degraded.In type E guarantor was green, chlorophyllous original level was higher, yet the startup of leaf aging and progress do not have variation, provide the illusion of lower relatively advance rate thus.Type A and B are that functional guarantor is green, because photosynthetic capacity keeps along with chlorophyll content, and they are types relevant with drought tolerance with the high yield of Chinese sorghum.Although this proterties has potential importance, especially relevant with high yield and drought tolerance interests aspect green biochemical, the physiological or molecule of the guarantor who understands the heredity decision basic, almost do not make progress.Referring to, for example, Thomas and Howarth, the same.

Show, many environment can significantly change the selection of time and the progress of leaf aging with physiological condition, and can provide understanding about the basis of this proterties.In environmental factors, light may be the most tangible, and has thought chronically, places dark by the leaf that will come off, and can induce the leaf aging in many plant species.Referring to, for example, Weaver LM, Amasino RM (2001) Senescence is induced in individuallydarkened Arabidopsis leaves, but inhibited in whole darkenedplants. Plant Physiology127:876-886.Shown that also limited nutrition and water availability can induce leaf aging (for example, Rosenow DT, Quisenberry JE, Wendt CW, Clark LE (1983) Drought-tolerantsorghum and cotton germplasm. prematurely Agricultural Water Management7:207-222).In the physiology determinative, growth regulator plays a crucial role in instructing the old and feeble program of leaf.Relevant especially is that the change of having observed the phytokinin level can obviously postpone the leaf aging.For example, with prenyltransferase (ipt) (the edaphic bacillus gene of the rate-limiting step in the biosynthesizing of a kind of energy Codocyte mitogen) plant transformed, control following time when the promotor that places old and feeble induction type, can cause the phytokinin production and the green phenotype of strong guarantor of self regulating.Referring to, for example, Gan S, Amasino RM (1995) Inhibitionof leaf senescence by autoregulated production of cytokinin. Science270:1986-1988.Ethene has also involved in the aging of control leaf (for example, DavisKM and Grierson D (1989) Identification of cDNA clones for tomato (Lycopersicon esculentum Mill.) mRNAs that accumulate duringfruit ripening and leaf sencescence in response to ethylene. Planta179:73-80), and ethylene production or feel that delay that impaired plant also can show the leaf aging (for example, Picton S waits (1993) Altered fruit ripeningand leaf senescence in tomatoes expressing an antisenceethylene-forming enzyme transgene. The Plant Journal3:469-481; Grbic V and Bleeker AB (1995) Ethylene regulates thetiming of leaf senescence in Arabidopsis. The Plant Journal8:95-102; With John I, wait (1995) Delayed leaf senescence inethylene-deficient ACC-oxidase antisence tomato plants:molecular and physiological analysis. The Plant Journal7:483-490), it can obtain phenocopy by the inhibitor of biosynthesizing of exogenous application ethene and effect (for example, Abeles FB waits (1992) Ethylene in Plant Biology.Academic Press, San Diego, CA).

At definite ethene during, differentiate and analyze that the mutant of ethene biosynthesizing and cacesthenic Arabidopis thaliana and tomato is arranged is valuable in plant-growth and developmental vital role.The mutant analysis also helps to differentiate and characterize the ethylene signaling approach.Although in dicotyledons (for example, Arabidopis thaliana and tomato), identified many ethene mutant, in monocotyledons (for example, rice, wheat and corn), do not identify such mutant as yet.Described the discriminating of the maize mutant body of acc synthase defective in this article, this acc synthase is first kind of enzyme in the ethene biosynthetic pathway.Illustrate ethene in the cereal growth course regulating effect and it regulating the time spent of doing in the reaction of environmental stress, these mutant are vital.From the knowledge that such mutant analysis obtains, can increase about the understanding of ethene in the developmental effect of corn, and relevant with other cereal crop species.

Mutant is that ethylene production lacks, and has shown the green phenotype of guarantor.Under normal growth conditions, and prolong can in wild-type plant, induce the drought condition that begins the leaf aging too early after, observed protect green.Except chlorophyllous keeping in water stress process, the leaf of acc synthase-shortage can be kept the photosynthesis function, and continues assimilation CO ₂Surprisingly, under normal growth conditions, reduce ethylene production and can improve leaf function in all leaves, and arid-stress plant in keep high-caliber function, even in the leaf at the similar age of wild-type plant, do not induce old and feeble leaf as yet for those.These discoveries show that ethene can be used for regulating the leaf function under normal growth conditions, and drought condition is responded.

Material and method

From Zea mays clone acc synthase gene

In order to help acc synthase gene from corn clone, use at present the sequence information that can obtain from GenBank, in the conservative zone design of a plurality of monocotyledonss and dicotyledons species camber primer.Use primer ACCF1 (ccagatgggcctcgccgagaac; SEQID NO:12) and ACCl (gttggcgtagcagacgcggaacca; SEQ ID NO:13), on corn gene group DNA, carried out preliminary PCR reaction, and the segmental existence that has disclosed 3 different sizes.All 3 fragments are checked order, and confirmed high similarity with the sequence of other known acc synthase genes.

In order to obtain the complete genome group sequence of each gene, use Prime-a-Gene Mk system (Promega), with the dCTP radio-labeling all 3 fragments, and according to the described method of top Sambrook, use it for screening EMBL3 corn (B73) genomic library (Stratagene).In the damping fluid that contains 5X SSPE, 5X Denhardt ' s, 50% methane amide and 1%SDS, spend the night 30 ℃ of hybridization.At 45 ℃, in 1XSSPE that contains 0.1%SDS and 0.1X SSPE, wash trace successively, and, be exposed to film at-80 ℃ with the intensifier screen.36 flat boards that converge (150mm diameter) have been screened altogether.Subsequently, infer the male plaque, contain and initial 3 corresponding fragments of fragment differentiating to differentiate which clone by using the PCR of top primer, directly having screened.Use HotStarTaq (Qiagen), finished the PCR screening.Reactant contains 1X damping fluid, every kind of dNTP of 200 μ M, 3 μ M MgCl in 25 μ l total reaction volume ₂, 0.25 μ M forward and reverse primer, 1.25U HotStarTaq and as the 1 μ l phage diluent of former generation (amounting to 1/600, in the SM damping fluid) of template.Reaction conditions is as follows: 95 ℃/15 minutes (1 circulation); 95 ℃/1 minute, 62 ℃/1 minute, 72 ℃/2 minutes (35 circulations); 72 ℃/5 minutes (1 circulation).On 1% sepharose, separated sample, and, manifested product with behind the ethidium bromide staining.Also all fragments of amplification are carried out restriction analysis, to differentiate the sequence-specific difference that is independent of the subsequence size of other potential.

In order to help that the remainder of these genes is checked order, with left arm (gacaaactgcgcaactcgtgaaaggt to the EMBL3 carrier; SEQ ID NO:14) or right arm (ctcgtccgagaataacgagtggatct; SEQ ID NO:15) specific primer has used primer ACCF1 and ACC1 together, with each half gene that increases.Use the increase fragment of large-size of Takara LA Taq (Panvera).Reactant contains 1 μ l phage diluent (amount to 1/600, in the SM damping fluid) and every kind of primers of 2 μ M (final concentration), 1X damping fluid (final concentration), 400 μ M dNTP mixture (final concentration) and 1.25U LATaq in 25 μ l cumulative volumes.Under the condition below, react: 98 ℃/1 minute (1 circulation); 98 ℃/30 seconds, 69 ℃/15 minutes (35 circulations); 72 ℃/10 minutes (1 circulation).Use StrataPrep PCR purification kit (Stratagene), purifying the product of amplification, and deliver to University of Florida, the order-checking mechanism of Gainesville directly checks order.

The discriminating of the mutant that acc synthase knocks out

Verified, corn is the abundant source of mutant, partly since in its genome, have active or before activated transposable element system.Depend on exactly and insert the position of site in gene, partially or even wholly deactivation expression of gene of transposon.According to the amount (tissue specificity that promptly has a plurality of family members and family member) of redundancy, inactivation of gene can have or not have observable phenotype.The proterties utility system (TUSC) of the corn of Pioneer Hybrid Int. exploitation is the screening strategy of strong PCR-based, and it can be used for differentiating that the Mu transposon of specific gene inserts, and need not observable phenotype.This screening method is the most suitable in advance from the isolated target gene of corn.This system uses TIR-PCR, and wherein a kind of PCR primer is derived from target gene, and another kind of (Mu-TIR) is from inverted terminal repeat sequence (TIR) district of Mu.Use the primer the PCR reaction of these DNA that collect from the plant that contains Mu in a large number, can identify the amplification of success by using the southern blotting technique hybridization of target gene as probe.Then, screen the individuality in the positive storehouse, in target gene, contain the candidate system that the Mu element inserts to differentiate.In order to determine that the insertion incident is limited to somatocyte or also is present in (and therefore representing heritable variation) in kind of the system, can carry out the offspring from candidate's product and the identical PCR/DNA blot hybridization analysis of using in original screening.

Set up research project, to differentiate the mutant that knocks out in the ethene biosynthesizing.For this reason, use specific 4 primers of corn acc synthase gene discussed above (ACCF1, ccagatgggcctcgccgagaac, SEQ ID NO:12; ACC-1, gttggcgtagcagacgcggaacca, SEQ ID NO:13; ACC-C, cagttatgtgagggcacaccctacagcca, SEQ ID NO:16; ACC-D, catcgaatgccacagctcgaacaacttc, SEQ ID NO:17), with Mu-TIR primer (aagccaacgcca (a/t) cgcctc (c/t) atttcgt; SEQ ID NO:18) screening Mu together inserts.Preliminary screening can putatively identify 19 independent be that the Mu that they carry in the corn acc synthase multigene family inserts.Sowing is from each seed that is, and extracts DNA from each individual leaf.For DNA separates, separated 1cm from every strain plant ²The seedling leaf, and place some husky 1.5ml centrifuge tubes are housed.Quick freezing sample in liquid nitrogen, and use disposable pestle (Fisher Scientific) to grind to form fine powder.Add 600 μ l immediately and extract damping fluid (100mM Tris (pH8.0), 50mM EDTA, 200mMNaCl, 1%SDS, 10 μ l/ml beta-mercaptoethanols), thoroughly mix.Add 700 μ l phenol/chloroform (1: 1), 12, the centrifugal sample of 000rpm 10 minutes.500 μ l supernatant liquors are got in the new pipe, and after adding 1/10 volume 3M sodium-acetate and 1 volume Virahol ,-20 ℃ of precipitate nucleic acids.By 12,000rpm is centrifugal, and the precipitation total nucleic acid with 75% washing with alcohol 3X, and is re-suspended to 600 μ l H ₂Among the O.Use HotStarTaq (Qiagen), finished the PCR screening.Reactant contains 1X damping fluid, every kind of dNTP of 200 μ M, 3mM MgCl in 25 μ l total reaction volume ₂, the specific primer of 0.25 μ M acc synthase (ACCFl, ACC-1, ACC-C or ACC-D), the 0.25 specific primer of μ M Mu (MuTIR), 0.25 μ lHotStarTaq and as 1.5 μ l total nucleic acid of template.Reaction conditions is as follows: 95 ℃/15 minutes (1 circulation); 95 ℃/1 minute, 62 ℃/1 minute, 72 ℃/2 minutes (35 circulations); 72 ℃/5 minutes (1 circulation).On 1% sepharose, separated the PCR product, with manifesting behind the ethidium bromide staining, and transferred on the nylon membrane according to (1989) described methods such as Sambrook.Carry out the southern blotting technique analysis as top about as described in the library screening, just except hybridization temperature being increased to 45 ℃.From 13 each of inferring the mutantion line, sow BC1 (backcrossing 1) seed, and screen by PCR/DNA engram analysis (as mentioned above).In these are, find that having only 5 systems is genetic stabilities.These 5 systems are backcrossed 4 times in addition, so that the effect that incoherent Mu inserts minimizes.

Make the self-pollination of BC5 seed, the invalid individuality that isozygotys with generation.By using the PCR of TakaraLA Taq and ACCFl and ACC-1 primer, identified the invalid individual system of isozygotying.Reactant contains 1 μ l leaf DNA, every kind of primers of 2 μ M (final concentration), 1X damping fluid (final concentration), 400 μ M dNTP mixture (final concentration) and 1.25U LATaq in 25 μ l cumulative volumes.React under the condition below: 98 ℃/1 minute (1 circulation); 98 ℃/30 seconds, 69 ℃/15 minutes (35 circulations); 72 ℃/10 minutes (1 circulation).Use the PCR of the wild-type B73DNA of these primers and condition, caused segmental amplification with 3 corresponding 3 different sizes of gene that identify.Individuality for an invalid insertion-allelotrope is wild-type or heterozygosis can show this feature mode, and is the individuality that isozygotys for an invalid insertion-allelotrope, then lacks and the corresponding subsequence of gene that inserts the place.

In order to determine that Mu inserts the accurate position in site, use ACCF1 or ACC-1 primer, the PCR product that has increased and be from each with the MuTIR combination of primers.Then, use the Mu-TIR primer, stride across Mu/ target gene joint these sequencing fragments.These position of Mu element in each acc synthase gene in Fig. 2, have been shown.

Protein extraction

For total protein separates, collected the leaf of B73 or mutant plant in the specified time, quick freezing in liquid nitrogen, and grind to form fine powder.1ml is extracted damping fluid (20mM HEPES (pH7.6), 100mM KCl, 10% glycerine) add in about 0.1g refrigerated powder, and thoroughly mix.10, the centrifugal sample of 000rpm 10 minutes is got supernatant liquor in the new pipe, and according to the method for Bradford (1976), has determined concentration with spectrophotometry.Referring to, Bradford MM (1976) A rapid and sensitive method for thequantitation of microgram quantities of protein utilizing theprinciple of protein-dye binding. Anal.Biochem.(72:248-254. referring to Figure 18).

Chlorophyll extracts

Quick freezing leaf in liquid nitrogen, and grind to form fine powder.About 0.1g sample is got in the 1.5ml pipe, and weighed.With 1ml (or 0.8ml) 80% acetone extraction chlorophyll 5 times.Merge independent extract, and regulate final volume to 10ml (or 15ml) with other 80% acetone.According to the method for Wellburn (1994), determined chlorophyll content (a+b) with spectrophotometry.Referring to, Wellburn, A.R. (1994) The spectraldetermination of chlorophylls a and b, as well as totalcaretenoids, using various solvents with spectrophotometersof different resolution. J.Plant Physiol.(144:307-313. referring to Figure 17).

Photosynthetic measurement

Under normal and arid-stressed condition, make plant-growth in the field.Irrigated 2 times weekly 8 hours for normal plant.To arid-stress plant, water is limited in about 4 hours/week, from pollination precontract 1 week, last till 3 weeks after the pollination.In this limited water availability stage, arid-stress plant shown the sign of appreciable wilting and leaf roll.With portable TPS-1 photosynthesizer (PP Systems), transpiration, stomatal conductance and CO have been determined ₂Assimilation.After pollination the 40th day, measured every leaf on the plant.Numerical value is being represented the mean value of measuring 6 times.Referring to Fig. 5 and 6.

DNA and RNA purifying

For total nucleic acid is separated, collected the leaf of B73 in the required time, quick freezing in liquid nitrogen, and grind to form fine powder.Add 10ml and extract damping fluid (100mM Tris (pH8.0), 50mM EDTA, 200mM NaCl, 1%SDS, 10 μ l/ml beta-mercaptoethanols), and thoroughly mix, up to thawing.Adding 10ml phenol/chloroform (1: 1, volume: volume), and thoroughly mix.8, the centrifugal sample of 000rpm 10 minutes is got supernatant liquor in the new pipe, and after adding 1/10 volume 3M sodium-acetate and 1 volume Virahol ,-20 ℃ of precipitate nucleic acids.By 8,000rpm is centrifugal, the precipitation total nucleic acid, and be suspended in again among the 1ml TE.(prep) is used for the DNA purifying with half prepared product, and with remaining half be used for the RNA purifying.(perhaps, can be from 1cm ²Extract DNA or total nucleic acid in the seedling leaf, quick freezing in liquid nitrogen, and grind to form fine powder.Add 600 μ l and extract damping fluid [100mM Tris (pH8.0), 50mM EDTA, 200mM NaCl, 1%SDS, 10 μ l/ml beta-mercaptoethanols], and biased sample.Extract sample with 700 μ l phenol/chloroform (1: 1), and 12, centrifugal 10 minutes of 000rpm.Deposit D NA, and be suspended in 600 μ l H again ₂Among the O.)

For the DNA purifying, the RNA enzyme that 500 μ g is not had the DNA enzyme adds in the pipe, and 37 ℃ of incubations 1 hour.After the RNA enzymic digestion, add isopyknic phenol/chloroform (1: 1, volume: volume), and thoroughly mix.10, the centrifugal sample of 000rpm 10 minutes is got supernatant liquor in the new pipe, and after adding 1/10 volume 3M sodium-acetate and 1 volume Virahol, at-20 ℃ of deposit D NA.DNA is re-suspended in the sterilized water, and determines concentration with spectrophotometry.In order to determine the DNA integrity, on 1.8% sepharose, separated 20mg DNA, and behind ethidium bromide staining, manifested.According to described methods such as top Sambrook, take turns LiCl by 2 ₂The precipitation, purifying RNA.

Real-time RT-PCR is analyzed

Handled the total RNA of 50 μ g with RQ1 DNA enzyme (Promega), to guarantee not exist the DNA of pollution.Use OmniscriptRT test kit (Qiagen), as primer, the total RNA of 2 μ g is directly used in cDNA analyzes with oligodeoxythymidylic acid (20).

Use QuantiTect SYBR Green PCR test kit (Qiagen), finished the analysis of transcript abundance.Reactant contains 1X damping fluid, 0.5 μ l reverse transcription reactant (being equivalent to the total RNA of 50ng) and 0.25 μ M (final concentration) forward and reverse primer (referring to following table 2) in 25 μ l total reaction volume.

Table 2

? Gene	? Forward primer (5 '-3 ')	? Reverse primer (5 '-3 ')
			ZmACS47	atcgcgtacagcctctccaagga SEQ?ID?NO：19	gatagtcttttgtcaaccatcccataga SEQ?ID?NO：20
ZmACS50	atcgcgtacagcctctccaagga SEQ?ID?NO：21	caacgtctctgtcactctgtgtaatgt SEQ?ID?NO：22
			ZmACS65	agctgtggaagaaggtggtcttcgaggt SEQ?ID?NO：23	agtacgtgaccgtggtttctatga SEQ?ID?NO：24

Under the condition below, use ABI PRISM 7700 sequence detection systems to react: 95 ℃/15 minutes (1 circulation); 95 ℃/30 seconds, 62 ℃/30 seconds, 72 ℃/2 minutes (50 circulations); 72 ℃/5 minutes (1 circulation).To each genetic analysis least four times.

On sepharose, move for the first time and manifested all combination of primers, with existing of the single product that confirms correct size.All amplified production subclones are advanced in the pGEM-T Easy carrier system (Promega), to be used to generate typical curve, to help the conversion of expression data to copy/μ g RNA basis.

Ethene is measured

After pollination 20,30 or 40 days (DAP), from the 2nd of the seedling leaf that is in the 4-leaf stage fully-the unfolded leaf, perhaps, measured ethene from the terminal 15cm of plant leaf.Gather in the crops leaf in the specified time, and before collecting ethene, be recovered between the moist paper handkerchief 2 hours.Leaf is placed vial, and cover rubber septum.After incubation 3-4 hour, from each bottle sampling 0.9mL headspace, and use has been equipped with capillary column (the Agilent Technologies based on HP Plot aluminum oxide, Palo Alto, CA) 6850 serial gas chromatography system (Hewlett-Packard, Palo Alto CA), has measured ethylene content.For each sample measurement organize fresh weight.Measured in triplicate, and record mean value and standard deviation.

Western blot analysis

Collect the B73 leaf in the specified time, and in liquid nitrogen, grind to form fine powder.1ml is extracted damping fluid [20mM HEPES (pH7.6), 100mM KCl, 10% glycerine, 1mMPMSF] add about 0.1g refrigerated powder, and thoroughly mix.By 10, centrifugal 10 minutes of 000rpm, the sedimentation cell fragment is as (Bradford, 1976) described mensuration protein concentration.From Tadahiko doctor Mae (Tohoku University, Sendai, Japan), obtained antiserum(antisera) at the big subunit of rice rubisco.The SDS-PAGE of use standard has separated protein extract, and by electroblotting albumen is transferred on the 0.22 μ m nitrocellulose filter.After the transfer, with film at 5% milk, be dissolved in TPBS (0.1%TWEEN20,13.7mM NaCl, 0.27mM KCl, 1mM Na ₂HPO ₄, 0.14mM KH ₂PO ₄) in 0.01% Thiomersalate in seal, then with general in TPBS with 1% milk with the first antibody incubation of dilution in 1: 1000 to 1: 2,000 1.5 hours.Then, with TPBS washing trace 2 times, and with being diluted to 1: 5000-1: 10,000 goat resists-the rabbit horseradish peroxidase-and (Southern Biotechnology Associates, Inc.) incubation is 1 hour for the antibody puted together.Wash trace 2 times with TPBS, and generally use chemoluminescence (AmershamCorp), detection signal between 1-15 minute.

The result

The discriminating of the mutant that acc synthase knocks out

Separated 3 genes of the acc synthase of encoding from self-mating system B73, and check order (referring to, for example, SEQ ID NO:1-11).2 members of this family (that is, ACS2 and ACS7) closely related (97% amino acid identity), and the 3rd gene (that is ACS6) is obviously more divergent (54% and 53% amino acid identity being arranged with ACS2 and ACS7 respectively).The transposon that uses the reverse genetics method to screen among the acc synthase gene family member inserts (Bensen etc. (1995) Cloning and characterization of the maize Anl gene.Plant Cell 7:75-84).Differentiated 19 candidates system, and by inverted terminal repeat sequence (TIR)-PCR, confirmed that carrying Mu among in 3 acc synthase genes one of wherein 13 inserts.Wherein, 5 systems can stably entail B73 with transposon in the 1st time is backcrossed, and the latter backcrosses 4 times in addition, insert to reduce undesirable Mu.Then, make the plant self-pollination, with the invalid individuality that generation is isozygotied, the latter differentiates (referring to method) by the PCR that uses ACCF1 and ACC-1 primer.Use the pcr amplification of the null mutant of the wild-type system of these primers or heterozygosis, caused the fragment with 3 corresponding 3 different sizes of acc synthase gene, and the product of the pcr amplification of the null mutant that isozygotys lacks and the corresponding fragment of mutator gene.Use the Mu-TIR primer, by striding across the order-checking of Mu/ACC synthase joint, the Mu that has measured each mutantion line inserts site (Fig. 2).54 of inserting in the system are contained Mu in ACS2: a mutant contains insertion in the 3rd exon, and other three unique location in the 4th exon contain insertion (Fig. 2).The 5th insertion ties up in the 2nd intron that closes on 3 ' splice site of ACS6 and contains Mu.Quantitatively real-time RT-PCR discloses, and in the corn leaf growth course, all 3 genes are all expressed, and has confirmed forfeiture or minimizing that the Mu insertion can cause ACS to express.In the 1st generation, identified the insertion among the ACS7, but can not be hereditary, this shows that they are somatic mutants, or plants the expression that system grows needs ACS7.

About the description of acc synthase expression pattern in endosperm and embryonic development process, referring to Gallie and Young (2004) The ethylene biosynthetic and perceptionmachinery is differentially expressed during endosperm andembryo development Mol Gen Genomics271:267-281.

It is synthetic that ACS6 or ACS2 gene disruption can reduce ethene

Ethene in the corn leaf is emitted the function increase (Figure 19 little figure C) of level as leaf age.At 20DAP, in leaf 1 (the oldest flap), observed the ethene of highest level, this highest level has advanced to leaf 3 when 30DAP, and (, nuclear ripe) advances to leaf 4-5 when 40DAP.Whether can reduce ethene and emit for the Mu that determines above-mentioned ACS6 or ACS2 destroys, measure ethene from the leaf 4 of the plant of wild-type and sudden change.It is the about 55% of wild-type plant that the ethene of acs2 plant is emitted, and this level is similar to the allelotrope (the little figure A-B of Figure 19) of all acs2 sudden changes.It only is about 10% (little figure B of Figure 19) of wild-type plant that the ethene of acs6 plant is emitted.The ethene of the plants of the two sudden changes of acs2/acs6 is emitted and is similar to the acs6 plant.These data show, compare with the forfeiture that ACS2 expresses, and the forfeiture meeting that ACS6 expresses reduces the ability that corn leaf is produced ethene biglyyer.

The destruction of ACS6 can be given and be protected green phenotype

The appearance of old and feeble visible evidence is associated in the quite big increase that ethene is emitted and the wild-type leaf, and this shows that ethene can promote leaf to enter old and feeble program.If like this, can expect the delay of aging of acs6 leaf, this leaf can be produced significantly less ethene.For confirm this possibility, make to isozygoty (that is, and acs6/acs6), heterozygosis (that is, and ACS6/acs6), and wild-type (that is, ACS6/ACS6) plant was at field growing, up to back 50 days of pollination.In this stage, the oldest wild-type leaf senesces, and corresponding ACS6/acs6 leaf has just senesced, and the acs6/acs6 leaf keeps green fully.These observations show that the ethene level of emitting can determine the selection of time of leaf aging.

After long-term exposure is in dark, also can induce aging.In order to determine whether the minimizing that ethene is emitted can postpone dark-inductive aging, with overlapping the leaf that has covered from the plant that grows up, to isolate 2 weeks of light.Use from fresh plant (that is, and leaf 20DAP) guarantee in experimentation, not take place the age-relevant aging, and they remain adhered on the plant.Also use the corn of greenhouse growth to avoid any heating, the latter may be taken place in the field as the consequence that covers.After 2-week dark-processing, in fact observed aging in the whole zone (by the zone by the cover covering indicated, Fig. 4 left side) of the wild-type leaf that covers from Huang to green obvious transformation.The point of ACS6/acs6 leaf has experienced dark-inductive aging, but remaining overlay area has shown significantly less aging (in the middle of Fig. 4).On the contrary, the acs6/acs6 leaf keeps green (Fig. 4 right side) completely.Aging degree is relevant with the amount of the ethene of every kind of production, and wherein the ACS6/acs6 leaf has only been produced 70% wild-type ethene, and the acs6/acs6 leaf has only been produced 14.6% wild-type ethene.These results show that ethene can mediate the beginning of dark-inductive aging, as it to the mediation of natural aging.They also show, lost the ACS6/acs6 heterozygous mutant physical efficiency production ethene still less of an ACS6 copy, and show and the observed similarly weak green phenotype of protecting of acs2 mutant, described acs2 mutant has also shown medium (that is, 40%) minimizing that ethene is emitted.

For whether the ACC that checks external source can compensate acs6 mutant and its green phenotype of guarantor of reverse, at 20DAP, by covering 7 days with cover, make from ACS6/ACS6, acs2/acs2 and acs6/acs6 plant the 3rd the oldest, the 6th and the 9th leaf generation dark-inductive aging.When beginning to test, all leaves all are fully green, and remain adhered on the plant.Supply with water or 100 μ M ACC for once a day the acs6/acs6 plant, continue 7 days.After 7 days, (that is, ASC6/ASC6) begun dark-inductive aging in the leaf, although it does not also develop into observed degree after 2 all dark processing in wild-type.The degree of dark-inductive aging increases as the function at leaf age, and is more older and more feeble than leaf 6 or leaf 9 (they are fresher) thereby leaf 3 has shown, and shows that old and feeble ability increased with the leaf age.In the leaf 3 of acs2 homozygous mutation body, also observed dark-inductive aging, although it is not as observed remarkable in the corresponding wild-type leaf.Though the leaf that acs6 isozygotys do not show with Fig. 4 in the corresponding to dark of observation-inductive aging of obtaining, when irrigating 100 μ M ACC, when continuing 7 days, observed and the similar dark of wild-type leaf-inductive aging for the acs6 leaf.ACC handles can not influence unlapped acs6 leaf, and the aging that shows the acs6 leaf of observed covering is that dark-processing is specific.

Determine the level of the chlorophyll a+b of leaf 3, confirmed observations, because after 7 darkness dark places reasons, the acs6 leaf can be kept basically than the more chlorophyll of wild-type leaf, but when irrigation 100 μ M ACC, not so (the little figure A of Figure 20).ACC handles self can not induce chlorophyllous too early forfeiture, can not lose chlorophyll because irrigate the unlapped leaf of the acs6 mutant of ACC.The acs2 leaf only can be kept than the more substantial chlorophyll of wild-type leaf appropriateness.Observed similar result with leaf 6 and leaf 9, though as expection, the chlorophyllous level in these fresher leaves is higher than (the little figure A of Figure 20) in older leaf 3 samples.Observed similar trend with total solvable leaf protein: after dark processing, the acs6 leaf can be kept basically than the more albumen of wild-type leaf, but when irrigation during 100 μ M ACC, not so (the little figure B of Figure 20).

Ribulose two carboxylases (ribulose biscarboxylase) western blot analysis (Rubisco) has confirmed that the B73 leaf of dark-processing lost rubisco considerably, and the described forfeiture of the oldest leaf (leaf 3) is greater than the freshest (leaf 9) (the little figure C of Figure 20).The acs6 leaf of dark-processing can be kept the more rubisco of wild-type leaf than dark-processing basically, and the acs2 leaf can be kept the rubisco (the little figure C of Figure 20) of medium level.Irrigate the acs6 leaf of dark-processing of 100 μ M ACC and lost the rubisco of similarly measuring with the B73 leaf of dark-processing, show that ACC can compensate the forfeiture that acc synthase is expressed.When they being maintained illumination following time, in the acs6 leaf that ACC-handles, do not observe the forfeiture of rubisco, show that independent ACC handles the level that can not reduce rubisco.These data acknowledgements, the ACC of external source can compensate and protect green phenotype, the latter comprises the maintenance of chlorophyll and leaf protein (for example rubisco), thus the consequence of the minimizing of the forfeiture that the delay that shows the aging in these plants is the acc synthase in the acs6 mutant to be expressed.

Reduce ethene and can postpone natural leaf aging, and reduce chlorophyll and proteic forfeiture

Known arid can be induced beginning too early of leaf aging.Whether mediate in order to study the arid reaction by ethene, and determine to reduce ethene and emit the drought tolerance that whether can improve corn, at (8 hours that better irrigate, 2 times weekly) and water-stress condition (4 hours weekly, continue 1 month, from pollination precontract 1 week, last till pollination 3 weeks of back) under, make plant that the acs6 that isozygotys and acs2 suddenly change and wild-type plant at field growing.In the limited water availability stage, arid-stress plant shown that leaf is wilted and leaf roll, this is the visual confirmation of drought stress.After water stress be handled, measured the degree of leaf aging and function.

Under the condition of better irrigating, the aging of the oldest leaf is significantly in wild-type plant, and in the process of drought condition, even more obvious.Observed similar result with the acs2 plant.On the contrary, better irrigate or drought condition under, in the acs6 leaf, do not observe visual old and feeble sign.Interesting is that the anthocyanin production in the acs6 leaf has also reduced.

In order to confirm that protecting green phenotype is associated with high-caliber chlorophyll, has measured the level of chlorophyll a and b.Chlorophyll reduces (little figure A of Figure 17 and D) with the age of leaf age and plant.As expection, chlorophyllous maximum the minimizing with old and feeble visual the beginning is associated.Under the condition of better irrigating, the chlorophyll level in acs6 (ACS60/0) leaf is up to 8 times of leaf of the correspondence of the wild-type plant that has senesced.Surprisingly, the earth of being on close level of the chlorophyll in all acs6 leaves (comprising the freshest) is higher than wild-type plant (the little figure A of Figure 17).Chlorophyll level in acs2 (ACS2 0/0) leaf is higher than wild-type plant mediumly.These results show, the horizontal negative correlation of the increase of chlorophyll content and ethylene production: the medium minimizing of the ethene in the acs2 plant is associated with the medium increase of chlorophyll content, and a large amount of minimizings of the ethene in the acs6 plant are associated with the quite big increase of chlorophyll content.These results have also confirmed, reduce ethene and can increase chlorophyllous level, even in the fresh leaf that can show maximum leaf function (referring to following).

Under drought condition, the chlorophyll level with in the wild-type plant of sudden change can reduce, but is reduced to still greater than the degree in wild-type plant (the little figure B-C of Figure 17).For example, water-stress the leaf 5 of wild-type plant in the chlorophyll level compare with non--arid plant and reduced 2.5-doubly, and water-stress the leaf 5 of acs6 plant in, only reduced by 20% (the little figure C of Figure 17).As a result, reducing ethene emits and can cause the chlorophyll level to be up to 20 times of leaf of corresponding wild-type plant in the oldest leaf of acs6 plant.As observed with non--arid plant, the chlorophyll level in all acs6 leaves (comprising the freshest) is all higher.Under drought condition, the chlorophyll content in the acs2 leaf is also kept and is higher than wild-type plant mediumly.Thereby, the forfeiture that ACS6 expresses can reduce to water stress reactivity because in wild-type plant, caused under the stressed condition that tangible chlorophyll loses, can keep chlorophyll content basically at those.

Leaf protein also reduces (the little figure D of Figure 18) with leaf age and plant age.As viewed about chlorophyll, sizable minimizing of proteic major part and old and feeble visual begin to be associated (the little figure D of Figure 18).Under non--drought condition, the protein level in the acs6 leaf is up to 2 times (the little figure A of Figure 18) of leaf of the correspondence of the wild-type plant that has senesced.As viewed about chlorophyll, the protein level in all acs6 leaves (comprising the freshest) all is higher than wild-type plant considerably, and the protein level in the acs2 leaf is higher than wild-type plant (the little figure A of Figure 18) mediumly.Be exposed to drought condition, can in the oldest wild-type leaf, cause reducing (the little figure B-C of Figure 18) than observed bigger albumen in the acs6 leaf.As viewed with non--arid plant, the protein level in all acs6 leaves (comprising the freshest) is all higher.These results are consistent with chlorophyllous result, and hint the horizontal negative correlation that protein content and ethene are emitted.They have also confirmed, the forfeiture that the acc synthase in the acs6 mutant is expressed, can reduce to water stress reactivity because in wild-type plant, caused under the stressed condition of tangible albumen minimizing, can keep protein level basically at those.

In better that irrigate and process drought condition, reduce ethene and can keep the leaf function

Chlorophyll and albumen keeping in the acs6 leaf shows, also can keep the leaf function, for example rising and assimilation CO ₂Ability.For the research this point, when the leaf below the wild-type plant has senesced,, measured transpiration rate, stomatal conductance and the CO of every leaf of the acs6 of better irrigation and wild-type plant at 40DAP ₂Assimilation speed.The freshest leaf of acs6 plant has shown comparison according to higher transpiration rate (the little figure A of Fig. 5) and the stomatal conductance (the little figure B of Fig. 5) of plant, and does not observe evident difference in older leaf.On the contrary, the CO in the leaf of all acs6 plants ₂Assimilation speed is higher than control plant (the little figure C of Fig. 5) basically.More specifically, the older leaf of acs6 plant shows the CO above 2 times into wild-type plant ₂Assimilation speed, and the CO in the fresher leaf ₂Assimilation speed is increased to 100% (the little figure C of Fig. 5) from 50%.

Also studied and reduced ethene under drought condition, keeping the influence of leaf function.When being in drought condition (4 hours weekly, continue 1 month, from 1 week of pollination precontract, last till pollination 3 weeks of back), transpiration rate in the wild-type leaf (the little figure D of Fig. 5) and stomatal conductance (the little figure E of Fig. 5) obviously reduce, and they remain unaffected in the acs6 leaf to a great extent, thus the stomatal conductance (the little figure E of Fig. 5) that causes the higher basically transpiration rate of mutant (the little figure D of Fig. 5) and increase.In addition, arid processing can cause CO in the wild-type leaf ₂The remarkable reduction of assimilation speed, but in the acs6 leaf can not, thereby cause CO in the fresher acs6 leaf ₂The assimilation comparison is according to maximum 2.5-times of increases, and the comparison of older acs6 leaf is according to increasing maximum 6-times (the little figure F of Fig. 5).These results show that ethene can control the leaf function in the drought condition process, and the minimizing of its production can postpone the leaf aging of older leaf, keep the leaf function of all leaves simultaneously, thereby bigger drought tolerance is provided.Similarly, although not too obvious, observed the result (the little figure A-C of Fig. 6) of ACS2.

Discuss

In a word, isolated the acc synthase mutant that can influence the Ethylene Biosynthesis the first step from corn.That these mutant have shown is natural, the delay of dark-inductive and arid-inductive leaf aging and protect green phenotype.After being exposed to ethene, old and feeble delay is a reversible.In the process of growing under normal or drought condition, the leaf of acc synthase sudden change has shown higher basically CO ₂Assimilation speed.Surprisingly, in the leaf of all acc synthases sudden change (comprise and do not enter the freshest of natural or the old and feeble program of arid-inductive as yet), observed the leaf function of improving.These observations show, ethene can mediate corn to water stress reaction, and reduce ethylene production can be as stress keeping the measure of leaf performance in the process at water, thereby improve its tolerance to drought condition.As point out that the acc synthase mutant can have other favourable phenotype, and for example, the pathogen resistance of male sterile phenotype, crowded resistant phenotype, change etc.

Top embodiment shows, no matter is to be grown under the condition of better irrigation, and still under the drought condition that generally can induce too early leaf aging, ethene all plays an important role in the beginning of the leaf aging of regulating corn.The minimizing that the ethene that can cause ACS6 to express forfeiture is emitted is to instruct major cause natural and arid-inductive leaf aging.Although do not wish to be bound to any specific theory, the forfeiture that ACS6 expresses can directly postpone to enter old and feeble program, perhaps can influence from total acc synthase of all gene members to express.Independent ACS2 knocks out that ethylene production has been reduced is about 40%, and has caused chlorophyll and proteic a small amount of to increase.On the contrary, the ethylene production in the acs6 leaf has reduced and has been up to 90%, and the acs6 leaf contains higher levels of basically chlorophyll and albumen.These observations show, old and feeble program enter the control that is subjected to surpass 1 gene family member.

Water-stress after, chlorophyll in the wild-type leaf and protein level have sizable reduction, but in the acs6 leaf, keep unaffected.These results have hinted the 2 kind effects of ethene in corn leaf: under normal growth conditions, ethene has correct chlorophyll and the protein level that helps keep in the leaf, and in water stress process, ethene may be used to reduce the level of the two.Finding that 40% ethene reduces can cause chlorophyll and proteic medium increase, and 90% reduce and can cause chlorophyll and proteic sizable increase, and this shows that these leaf components may be subjected to the quantitative control of the ethylene levels of producing in the leaf.If further reduce ethylene production again, then can expect bigger leaf chlorophyll and proteic increase.

Be in chlorophyll and proteic forfeiture in the wild-type corn under the drought condition, with the transpiration rate, stomatal conductance and the CO that reduce ₂Assimilation.On the contrary, be in keeping of chlorophyll in the acs6 plant leaf under the drought condition and protein level, with rising, stomatal conductance and CO ₂Keeping of assimilation.These results show, reduce ethene and not only can give the guarantor green phenotype, and in fact can keep the leaf function under stressed condition.Find that ethene can control the beginning of leaf aging, this is consistent with the effect of this hormone in other species, and described other species are Arabidopis thaliana and tomato (Davis and Grierson (1989) Identificationof cDNA clones for tomato (Lycopersicon esculentum Mill.) mRNAs that accumulate during fruit ripening and leafsencescence in response to ethylene. for example Planta179:73-80; Abeles etc. (1992) .Ehylene in Plant Biology. (San Diego:AcademicPress); Picton etc. (1993) .Altered fruit ripening and leafsenescence in tomatoes expressing antisence ethylene-formingenzyme transgene Plant J.3:469-481; Grbic and Bleecker (1995) Ethylene regulates the timing of leaf senescence inArabidopsis Plant J.8:95-102; John etc. (1995) Delayed leafsenescence in ethylene-deficient ACC-oxidase antisence tomatoplantss:molecular and physiological analysis Plant J.7:483-490).Be surprised to find that the minimizing that ethene is emitted can increase chlorophyll and proteic level, and increase the CO in all leaves (comprising the freshest) ₂Assimilation speed.This shows that for a long time, ethene is just having a positive effect aspect the control of leaf function before leaf enters old and feeble program.Be surprised to find that equally the minimizing of ethene can influence the water-stress reaction of all leaves.These discoveries show, by reducing the level of the ethene that generates in the leaf, the tolerance that drought condition is increased easily can be imported in corn and optional other cereal species.

Embodiment 2: sequence alignment and phylogenetic analysis

Fig. 7 (ACS growtree 2) has shown acc synthase sequence as herein described, for example, (A47 (being also referred to as ACS2 or ACC2 in this article) from corn, A50 (being also referred to as ACS7 or ACC7 in this article), A65 (being also referred to as ACS6 or ACC6 in this article)), with phylogenetic analysis from the acc synthase sequence of other species, (AtACS wherein ...) indicating arabidopsis thaliana sequence, (LeACS ...) indicating the tomato sequence, (indica type (OsiACS ...) and round-grained rice type (OsjACS ... )) indicating the rice sequence, (TaACS ...) indicating the wheat sequence, and (MaACS ...) indicating the banana sequence.In analysis, the acc synthase of indicating is divided into 2 subtribes.Further 1 subtribe is divided into again monocotyledons (Zm (corn), Osi, Osj, Ta, Ma) ACS gene and dicotyledons (At, Le) ACS gene.

Fig. 8-16 has shown acc synthase sequence as herein described, for example, from (A47 (being also referred to as ACS2 or ACC2 in this article), A50 (being also referred to as ACS7 or ACC7 in this article), the A65 (being also referred to as ACS6 or ACC6 in this article)) of corn (Zm) and multiple peptide consensus sequence comparison from the acc synthase sequence of other species.(for example use the Pretty program, can obtain from SeqWeb (GCG) webpage), with determine to have different severity (for example, the strictest (identical), strict (similar amino acid) or the least consensus sequence of strict (similar a little amino acid).In every width of cloth figure, after " consensus sequence ", indicated severity.GapWeight be 8 and GapLengthWeight be 2.

Embodiment 3: carry out acc synthase by shrna expression and knock out

As noted, the vegetable cell and the plant that knock out be can produce, for example, RNA silence or interferential acc synthase polynucleotide sequence are designed for by importing.This embodiment has described the shrna expression box, and it is used to modify for example ethylene production and the green phenotype of guarantor of corn.As noted, the knocking out of acc synthase for example, expressed by hpRNA, can produce plant or vegetable cell that one or more acc synthases with minimizing are expressed (reach at most and comprise undetectable expression).

To the acc synthase gene of the acc synthase of in plant, encoding (for example, promotor, other non-translational region or coding region) expression of specific hairpin RNA (hpRNA) molecule, the ethylene production of plant be can change and green potentiality, sterility, crowded resistance etc. protected, for example, disturb and/or silence by RNA.

On the encoding sequence inverted repeats partly that ubiquitin promoter is connected to ACS2 or ACS6 gene, prepared the hpRNA construct (referring to Figure 21 and 22, little figure A-C) of ACS2 (PHP20600) and ACS6 (PHP20323).Use the transformation technology of edaphic bacillus-mediation, each construct is transformed in the corn.Described the nucleic acid molecule and the method that are used to prepare construct and maize transformation in the past, and be known in the art; Referring to, for example, title is the part and the following examples " conversion of corn " of " carrier, promotor and expression system ", " Plant Transformation ", " other nucleic acid and protein determination " in this article.

To the expression of ACS2 or the specific hpRNA of ACS6 encoding sequence, can produce and not show nutrition and the unusual maize plant of reproductive growth.Be respectively ACS2-and ACS6-hair clip construct, produced totally 36 and 4O independent corn gene incident (Figure 23, little figure A and B).

For each hpRNA construct has been selected about 10 low copy number incidents, to be used for backcrossing and the transgenosis evaluation of other.For comprising genetically modified the backcrossing of hpRNA be, estimated and protected green potentiality phenotype, for example, as described herein (for example, the mensuration of measurement, chlorophyll or protein content by visual control, photosynthetic activity etc. are under normal and arid or other stressed conditions).

Embodiment 4: the conversion of corn

Biology launches striking (Biolistics)

By particle bombardment, usually as Tomes, D. etc., IN:Plant Cell, Tissueand Organ Culture:Fundamental Methods compiles O.L.Gamborg and G.C.Phillips, and Chapter 8,197-213 page or leaf (1995) is described and as following simple introduction, transforms in the embryo generation maize calli being included in polynucleotide of the present invention in the carrier.By immature embryo, produced rotaring gene corn plant with the tungsten particle bombardment embryo spot response that is combined with the DNA plasmid.Plasmid generally comprises or is made up of following element: selective marker and unselected structure gene, or selective marker and acc synthase polynucleotide sequence or subsequence, etc.

The particulate preparation:

With 0.5-1.8 μ, preferred 1-1.8 μ, most preferably the 15mg tungsten particle (GeneralElectric) of 1 μ adds in the 2ml concentrated nitric acid.At this suspension of 0 ℃ of supersound process 20 minutes ( Branson Sonifier Model 450,40% outputs, constant duty cycle).By 10000rpm centrifugal (Biofuge) 1 minute, the precipitation tungsten particle, and remove supernatant liquor.Add the 2ml sterile distilled water to precipitation, and with brief supersound process suspended particle again.Precipitation suspension adds 1ml water alcohol to precipitation, and with the supersound process of lacking suspended particle again.With sterile distilled water flushing, precipitation and resuspending particle 2 times, at last particle is re-suspended in the 2ml sterile distilled water again.Particle is divided into 250-μ l aliquots containig again, and refrigerated storage.

The preparation of particle-plasmid DNA combination:

In water-bath ultrasonoscope ( Branson Sonifier Model 450,20% output, constant duty cycle), supersound process tungsten particle stoste tout court, and 50 μ l are transferred in the Eppendorf tube.Carrier generally is a cis: that is to say that selective marker and target gene (or other polynucleotide sequences) are on same plasmid.

Plasmid DNA is added particle, and final DNA amount in 10 μ L cumulative volumes is 0.1-10 μ g, and supersound process tout court.Preferably, DNA and the particle that uses the total DNA of 10 μ g (1 μ g/ μ L is in the TE damping fluid) to be mixed for bombarding.Add the aseptic 2.5M CaCl of 50 microlitres (50 μ L) ₂The aqueous solution, supersound process mixture, and vortex tout court.Add the aseptic 0.1M spermidine aqueous solution of 20 microlitres (20 μ L), supersound process mixture, and vortex tout court.Under brief supersound process intermittently, in room temperature incubation mixture 20 minutes.Centrifugal pellet suspension, and remove supernatant liquor.Add 250 microlitres (250 μ L) dehydrated alcohol to precipitation, then supersound process tout court.Precipitation suspension is removed supernatant liquor, and is added 60 μ l dehydrated alcohols.Supersound process suspension is loaded into particle-DNA agglomerate on the huge carrier then tout court.

The preparation of tissue

The immature embryo of corn variety High Type II is the target of the conversion of particle bombardment-mediation.This genotype is the F of 2 purebred hereditary systems (parent A and B) that is derived from the hybridization of 2 known corn inbred lines (A188 and B73) ₁According to Armstrong etc., Maize Genetics Coop.News65:92 (1991), the strong ability that 2 parents' of selection somatic embryo takes place.

Make F ₁Fringe selfing or the sib mating of plant, and become for the first time when opaque when scultellum, sterilely cut off embryo from developmental caryopsis.According to growth conditions, this stage occurred in pollination back about 9-13 days, after pollination about 10 days the most frequently.The about 0.75-1.5mm of embryo length.With the surface of 20-50%Clorox sterilization fringe 30 minutes, then with sterile distilled water flushing 3 times.

With scultellum mode up, in embryo generation inducing culture, cultivate immature embryo, described substratum is by N6 basis salt, Eriksson VITAMIN, 0.5mg/l vitamin, 30gm/l sucrose, 2.88gm/l L-proline(Pro), 1mg/ l 2,4 dichlorophenoxyacetic acid, 2gm/lGelrite and 8.5mg/l AgNO ₃Form.Chu etc., Sci.Sin.18:659 (1975); Eriksson, Physiol.Plant18:976 (1965).121 ℃ of autoclaving substratum 15 minutes, and divide and install in 100 * 25mm culture dish.To AgNO ₃Filtration sterilization, and in the substratum behind the adding autoclaving.At 28 ℃, cultured tissue in complete dark.After about 3-7 days, after the most frequent about 4 days, the scultellum of embryo expand into about 2 times of its original size, is indicating embryo that the beginning of tissue takes place in the lip-deep projection of the coleorhiza of scultellum.Be up to 100% embryo and can show this reaction, but the most frequently, the embryo frequency that reacts is about 80%.

When observing embryo and react, embryo is transferred in the substratum of being made up of inducing culture (be modified to and contain 120gm/l sucrose).Determine the direction of embryo, so that the coleorhiza utmost point, i.e. the tissue that reacts of embryo is above substratum.With 10 embryo/culture dish, be placed on the central zone of about 2cm diameter of culture dish.At 28 ℃, under complete dark, embryo was kept in this substratum 3-16 hour, preferred 4 hours, to bombard with the particle that is combined with plasmid DNA more at once, described plasmid DNA contains to be selected and the non selected marker gene.

In order to realize the particle bombardment of embryo, use DuPont PDS-1000 particle booster machinery, quicken particle-DNA agglomerate.Supersound process particle-DNA agglomerate tout court, and 10 μ l are deposited on the huge carrier, make ethanol evaporation.By breaking of polymkeric substance partition (safety film), stop sieve (stopping screen) at stainless steel and go up the huge carrier of acceleration.By the helium of pressurization, realize breaking.On the basis of safety film collapsing pressure, determine the speed that particle-DNA quickens.Use 200-1800 pound/inch ²(psi) safety film pressure, 650-1100 pound/inch ²Be preferred, about 900 pounds/inch ²Be that topnotch is preferred.Use a plurality of films to realize the collapsing pressure of certain limit.

The shelf that will contain the dish with embryo places huge carrier platform bottom following 5.1cm (shelf #3).For the particle bombardment of the immature embryo realizing cultivating, safety film and the huge carrier that has dry granules-DNA agglomerate are installed in the device.The He pressure that flows to device is adjusted to more than the safety film collapsing pressure 200 pounds/inch ²The culture dish that the target embryo is housed is placed vacuum chamber, and be arranged in the particulate emission approach that quickens.In the chamber, set up vacuum, preferably about 28Hg.Behind the running gear, discharge vacuum, take out culture dish.

In the bombardment process, reach after this 1-4 days, the embryo that bombards is remained in the osmoregulatory substratum.Embryo is transferred in the selection substratum, and the latter is by N6 basis salt, Eriksson VITAMIN, 0.5mg/l vitamin, 30gm/l sucrose, 1mg/ l 2,4 dichlorophenoxyacetic acid, 2gm/l Gelrite, 0.85mg/l AgNO ₃Form with the 3mg/l bilanafos (Herbiace, Meiji).Add bilanafos after the filtration sterilization.With 10-14 days interval, embryo subculture is cultivated in the fresh selection substratum.After about 7 weeks, from the embryo of about 7% bombardment, propagation is inferred the embryo that has transformed selection and non selected marker gene and is organized.The genetically modified organism that rescue is inferred thinks that the tissue that is derived from each embryo is an incident, and can select breeding independently on the substratum.Select tissue takes place organized embryo minimum in abutting connection with fragment by naked eyes, realized 2 clonal propagations circulations.

Processing is from the tissue sample of each incident, to reclaim DNA.Use the restriction endonuclease restricted dna, and survey with primer sequence, described primer sequence is designed for the partly overlapping dna sequence dna of non--acc synthase of amplification and acc synthase and plasmid.Propelling has the embryo of the sequence that can increase to be organized, to carry out plant regeneration.

For the regeneration of transgenic plant, in 100 * 25mm culture dish, the succeeding transfer culture embryo is organized in comprising the substratum of following compositions: MS salt and VITAMIN (Murashige; Skoog, Physiol.Plant15:473 (1962)), 100mg/l inositol, 60gm/l sucrose, 3gm/l Gelrite, 0.5mg/l zeatin, 1mg/l indole-3-acetic acid, 26.4ng/l cis-trans-dormin and 3mg/l bilanafos, and at 28 ℃, incubation in the dark, form growth up to preferably, can see sophisticated somatic embryo.This needs about 14 days.The somatic embryo of Xing Chenging is opaque and cream-coloured preferably, and is made up of discernible scultellum and coleoptile.Independent succeeding transfer culture embryo in the germination substratum in 100 * 25mm culture dish, described germination substratum comprises MS salt and VITAMIN, 100mg/l inositol, 40gm/l sucrose and 1.5gm/l Gelrite, and illumination in 16 hours: 8 hours dark photoperiods and come the 40meinsteinsm of self cooling-Bai fluorescent tube ^-2Sec ^-1Following incubation.After about 7 days, somatic embryo germinates, and generates tangible stem and root.Each plant of succeeding transfer culture in the germination substratum in 125 * 25mm Glass tubing is further to make development of plants.Illumination in 16 hours: 8 hours dark photoperiods and come the 40meinsteinsm of self cooling-Bai fluorescent tube ^-2Sec ^-1Under keep plant.After about 7 days, set up plant preferably, and be transplanted in the horticultural soil, it is caught a cold and become cold-resistant, potted plant in the commercial greenhouse soil mixture, and in the greenhouse, grow to sexual maturity.Use the original seed self-mating system as male, give the regenerated transgenic plant with pollination.

Edaphic bacillus-mediation

When using the conversion of edaphic bacillus-mediation, as described in PCT patent disclosure WO98/32326 incorporated by reference, use the method for Zhao here.In brief, from immature embryo, and make embryonic breeding touch the suspension of edaphic bacillus (step 1: infect step) from corn dividing.In this step, preferably immature embryo is immersed in the edaphic bacillus suspension, to begin inoculation.Embryo and edaphic bacillus are cultivated for some time altogether (step 2: be total to culturing step).Preferably, after infecting step, on solid medium, cultivate immature embryo.Behind this common cultivation stage, " dormancy " step that expection is optional.In this sleep step, under the situation that the microbiotic that at least a known growth that can suppress edaphic bacillus is arranged exists, the incubation embryo, and do not add the selective reagents (step 3: sleep step) of vegetable transformant.Preferably, contain microbiotic, but do not have to cultivate on the solid medium of selective reagents immature embryo, with the dormant stage of the cell eliminating edaphic bacillus and infect.Then, contain the embryo of cultivating inoculation on the substratum of selective reagents, and reclaiming the callus (step 4: select step) of the conversion of growth.Preferably, contain the immature embryo of cultivation on the solid medium of selective reagents, thereby causing the selection growth of cell transformed.Then, make callus regeneration become plant (step 5: regeneration step), preferably, selecting the callus of growing on the substratum cultivating on the solid medium, with aftergrowth.

The expression of embodiment 5. transgenosiss in monocotyledons

Made up plasmid vector, it comprises the promotor that preferably is operably connected on the isolating polynucleotide, and described polynucleotide comprise acc synthase polynucleotide sequence or subsequence (for example, being selected from SEQ ID NO:1-6 and 10).Then, can this construct be imported in the maize cell by following method.

Cut off immature maize from the developmental caryopsis that is derived from corn hybridization system.After pollination 10-11 days,, separate embryo when they are 1.0-1.5mm when long.Then, axle-side is down placed embryo, and contact agarose-solidified N6 substratum (Chu etc. (1975) Sci.Sin.Peking 18:659-668).At 27 ℃, embryo is kept in the dark.Fragile embryo generation callus, it has the somatocyte proembryoid that produces and the cell lump of embryoid is formed by undifferentiated in the suspensor structure, can breed from the scultellum of these immature embryos.Can on the N6 substratum, cultivate from the isolating embryo generation of former generation explant callus, and every 2-3 week succeeding transfer culture on this substratum.

Can in transformation experiment, use plasmid p35S/Ac (Hoechst Ag, Frankfurt, Germany) or equivalent, so that selective marker to be provided.This plasmid contains Pat gene (disclosing 0 242 236 referring to European patent), its phosphinothricin acetyl transferase (PAT) of encoding.Enzyme PAT can give the weedicide glutamine synthetase inhibitor resistance of phosphinothricin for example.Pat gene among the p35S/Ac is from (Odell etc. (1985) Nature 313:810-812) under the control of the 35S promoter of cauliflower mosaic virus, and comprises 3 ' district from the nopaline synthase gene of the T-DNA of the Ti-plasmids of Agrobacterium tumefaciens.

Can make alpha bombardment method (Klein etc. (1987) Nature 327:70-73) change gene over to the callus culture cell.According to this method, the technology below using gives gold grain (1 μ m diameter) bag by DNA.10 μ g plasmid DNA are added 50 μ L gold grain suspension (60mg/mL).The alkali (20 μ L 1.0M solution) that adds calcium chloride (50 μ L 2.5M solution) and no spermidine to particle.In the process that adds these solution, vortex suspension.After 10 minutes, tout court centrifuge tube (5 seconds, 15,000rpm), and remove supernatant liquor.Particle is re-suspended in the 200 μ L dehydrated alcohols, recentrifuge, and remove supernatant liquor.Carry out alcohol flushing once more, particle is re-suspended in the final volume 30 μ L ethanol.The aliquots containig (5 μ L) that DNA-can be wrapped the gold grain of quilt places the center of Kapton flight dish (flying disc) (Bio-Rad Labs).Then, use 1000 pounds/inch ²Helium pressure, the clearance distance of 0.5cm and the flying distance of 1.0cm are quickened particle in the corn tissue with Biolistic PDS-1000/He (Bio-Rad Instruments, Hercules CA).

In order to bombard, tissue to be taken place in embryo place on the filter paper that covers on agarose-solidified N6 substratum.Tissue is arranged in thin layer, and the border circular areas of the about 5cm of covering diameter.To contain the chamber that in a organized way culture dish places PDS-1000/He, it is from stopping to sieve about 8cm.Then, extract the air in the chamber out, reach the vacuum of 28 inches Hg.Use the He pressure in shock tubing to reach 1000 pounds/inch ²The time can disruptive rupture disk, quicken huge carrier with the helium shockwave.

Bombarded back 7 days, and tissue can be transferred in the N6 substratum, described substratum contains careless ammonium phosphine (2mg/l), and lacks casein or proline(Pro).Make to be organized in and continue slowly growth in this substratum.After other 2 weeks, tissue can be transferred in the fresh N6 substratum, described substratum contains careless ammonium phosphine.After 6 weeks, contain on the flat board of substratum of careless ammonium phosphine-additional, can identify the callus of growth enthusiastically in the about 1cm of diameter zone at some.When succeeding transfer culture on the selection substratum, these callus can continued growth.

Replenished 0.2mg/l 2 by at first organizing bunch to transfer to, in the N6 substratum of 4-D, can be from the transgenic callus aftergrowth.After 2 weeks, tissue can be transferred to (Fromm etc. (1990) Bio/Technology 8:833-839) in the regeneration culture medium.

The expression of embodiment 6. transgenosiss in dicotyledons

As described below, with plasmid bombardment soybean embryo, described plasmid comprises the promotor that preferably is operably connected on the heterologous nucleotide sequence, and described heterologous nucleotide sequence comprises acc synthase polynucleotide sequence or subsequence (for example, being selected from SEQ ID NO:1-6 and 10).For the inductor somatic embryo, from surface-sterilization, the immature seed of soybean culture kind A2872, cut off the cotyledon of length 3-5mm, then at 26 ℃, on suitable nutrient agar, under illumination or dark, cultivate 6-10 week.Then, cut off the somatic embryo that can generate the subculture embryo, and place suitable liquid nutrient medium.Repeat to select as behind the somatic embryo bunch (embryo of globular stage) of breeding previously the suspension of keeping as described below.

Soybean embryo generation suspension culture can be maintained in the 35ml liquid nutrient medium on the gyrate shaker 150rpm, 26 ℃, the fluorescence scheme at 16: 8 hours daytime/nights.By 35ml liquid nutrient medium, per 2 all succeeding transfer culture cultures are advanced in the inoculation of about 35mg tissue.

Then, can be by basic rifle bombardment method, soybean transformation embryo generation suspension culture (Klein etc. (1987) Nature (London) 327:70-73, U.S. Patent number 4,945,050).Can use DuPont Biolistic PDS1000/HE device (helium modified version) to carry out these conversions.

The selectable marker gene that can be used to promote soybean to transform be by from the 35S promoter (Odell etc. (1985) Nature 313:810-812) of cauliflower mosaic virus, from the hygromycin phosphotransferase gene of plasmid pJR225 (from intestinal bacteria; Gritz etc. (1983) Gene 25:179-188) and the transgenosis of forming from 3 ' district of the nopaline synthase gene of the T-DNA of the Ti-plasmids of Agrobacterium tumefaciens.Can separate comprise preferred promotor and allogenic acc synthase polynucleotide the objective expression box as restricted fragment.Then, this fragment can be inserted unique restriction site of the carrier that carries marker gene.

In 50 μ l 60mg/ml, 1 μ m gold grain suspension, add (in order): 5 μ lDNA (1 μ g/ μ l), 20 μ l spermidines (0.1M) and 50 μ l CaCl ₂(2.5M).Then, granular preparation was stirred 3 minutes, in Eppendorf centrifuge, rotated for 10 seconds, remove supernatant liquor.Then, the particle 1 time of washing DNA-bag quilt in 400 μ l, 70% ethanol, and be re-suspended in the 40 μ l dehydrated alcohols.Supersound process DNA/ particle suspension liquid 3 times, each 1 second.Then, the gold grain with 5 microlitre DNA-bag quilt is loaded in each huge carrier plate.

The suspension culture in 2 ages in week of about 300-400mg is placed empty 60 * 15mm culture dish, and remove remaining liquid from tissue with suction pipe.For each transformation experiment, the about 5-10 dish of general bombardment tissue.Film destroy pressure is set in 1100 pounds/inch ², and the chamber is evacuated to the vacuum of 28 inches mercury.Tissue is placed be about 3.5 inches away from retaining screen, and bombard 3 times.After the bombardment, tissue can be divided into 2 half, and put back in the liquid, cultivate as mentioned above.

Bombardment back 5-7 days can be exchanged for liquid nutrient medium fresh substratum, and bombards the back 11-12 days, is exchanged for the fresh culture that contains the 50mg/ml Totomycin.Can upgrade the selection substratum weekly.In bombardment back 7-8 week, can observe clusters from unconverted, downright bad embryo grows tissue green, conversion.Take out isolating chlorenchyma, and be inoculated in each flask,, the embryo generation suspension culture that transform new, clonal propagation to produce.Can regard each new system as independently transformation event.Then, can these suspended substances of succeeding transfer culture, and be maintained in immature embryo bunch, or by the ripe of each somatic embryo with germinate, regeneration is put in order the strain plant.

Be to be understood that, embodiment as herein described and embodiment only are used for task of explanation, and those skilled in the art can make multiple improvement or variation according to them, and they are included in the application's the spirit and scope, is also contained in the scope of appended claims.

Although for the purpose that is aware and understand, than the invention that has described the front in greater detail, those skilled in the art can understand after reading its disclosure, can make multiple variation in form and details, and not break away from true scope of the present invention.For example, can be used in combination above-mentioned all technology and device with various.All publications of quoting in this application, patent, patent application and/or other documents, all here be that all purpose integral body are incorporated by reference, its degree is with to indicate each publication, patent, patent application and/or other documents respectively incorporated by reference identical for all purposes.

?SEQ?ID：	Type	Sequence
			?SEQ?ID：1	Gene A CS2 (ACC2) is from the acc synthase gene sequence (A47) of maize (Zm) self-mating system ' B73 ' the ACC2 pcr fragment of the original separation of self-mating system ' Oh43 ' (=from)	AAACTTCATA?CCGGTCGGTG?CCTTACGTTC?TCTGGCGTTC?TTATCCTTTC CTCCGCTTTT?AGTCGATGAT?TATAGTAGTT?TCTACAACAA?GCTTTCAACG CCATTGACTA?TTTTTTCCCC?CATTGAAAAC?GAACACCACC?ATTGACACTG ATAAATGTAG?TACAGCATTT?GACAACATAC?TTTCCTAGAA?AGTAACCAGC AGAGACTGGA?CGCTACGTAC?TACCACACCA?TTGGAGCAGC?CAATTTAATC GTGTATAGAA?CTCCGTATCG?AAATTTGTCT?GTGAATGGAC?CTTCATTTGC ATCTAGGTCT?AGTACAATGG?ATTTCGAACA?GGACAGCGCC?GATCTGGCAA TACACACACG?CACGACGTAG?CACAGCTGTT?CTTCGTTCCA?CGCGTTAATT GAAGGCAAAG?CGACTGTAGT?TGCTGTTGGT?GGCCAAGTTG?TTTAATGCTA TAGTAGCAGC?CAGTCACTCC?TAGGGCAAAT?TTTAGGACTT?TTGCATTGCA TTGCCGCCAT?GTAGAGGTTG?ACTGCACACC?GAGAATATCG?AGCATTCATT AGGCTCCTTG?ACTTGTTGCT?GTGAACTCCG?GCCATCTGTC?ACAGTACGTA TATGACCAGA?TCGGCACCAT?TTGTCTCGGC?CTGACAATCT?CGCGCGCCAT TGGCCATGCA?AAGCTGTCCT?GCCGTTCGGA?GAGACTAGAG?AGCCAGTTGG CAAATTGACA?TTTGCGATAG?GTGGGGCGGC?TTTGACTATG?ACATGATGAC AGATCCAGAT?GGTCCTCCGC?TAGTCCCCCC?GAGCCCGAGG?ACAGCACACT AGCTCACACG?AACTGACAGC?GCGGAGGAGG?ACACGTACCG?GGATGACACC GCCACCCATT?TGCTGGCAAG?CCGGGGTGCG?CCGGCGGTTC?AGGTTGAATC CTTCCTAATG?GTCGTGCTAG?CAAACCCCGC?AAGCTCAGTG?CGGGTCCAAA ACCCATTAAT?TATCCCACAA?AGCCGCCGTT?AGACGTAGAA?TCGACGCCGC GCGCCACGGC?CGGCGGCGGC?TACCTGGCTC?TTACCACCAT?CATTCGCTTG TCCGTTCCGT?CGCCCCCGCC?ACCCTCTCAG?AGATGGAGGC?GGTTAAGTGC CTGTCGACTA?TTGCAGAACG?TCGTCAGGCT?CGCTAGTTCG?ACCGAGCATC CTAGATACAT?AATCCAAATT?CCGCTCGGCG?ATTATAGGAG?GGTGATAGTA CTGAGTACAG?GGCGAAAAAC?GTTGAAAAGG?TCAGCGAGGC?CCCCACATGT CTCCCCCGGT?CGCGTTCGCA?TTCAACACCC?TCTGCGCTGC?GTTTCATGGA AGTTTCCAGC?AGCCACGCCC?ACGCGCATGG?ACGCGGCTGA?TCTTATAAAG GTGGCGCGCG?TCCCAACCTC?GGGAGCCATC?ATTTCACCAG?AAGCTGCAAA TTGCAAGCTC?TCCTCCCTAG?CTAGCCTCTC?CAGCAGCCCA?ACCACAGCCT GCAGCTGCAG?CTCGCGTTGG?CACAGCGCCG?CCTGAACGCG?TGCTAATTTA AGCTCTGTCG?TAGCTCAACG?CGGCCGCCGG?GCTTTCGCCG?ACGACGTCAA AATGGCCGGT?GGTAGCAGTG?CCGAGCAGCT?CCTATCCAGG?ATCGCCTCCG GCGATGGCCA?CGGCGAGAAC?TCGTCCTACT?TCGACGGGTG?GAAGGCCTAC GACATGGACC?CTTTCGACCT?GCGCCACAAC?CGCGACGGCG?TCATCCAGAT GGGCCTCGCC?GAGAACCAAG?TACGTGACGT?AGCCCTGCCG?CATGCAGCTA CAGCTACACC?CTTTCGACCT?GCGCAACAAC?CGCGACGGCG?TCATCCAGAT GGGCCTGCTG?TCGATGGAAT?GCTCATGTAA?TTAAACCACC?GGCCGGGGCG TGTTTTGCAG?CTGTCCCTGG?ACCTGATCGA?GCAATGGAGC?ATGGAGCACC CGGAGGCGTC?CATCTGCACG?GCGCAGGGAG?CGTCGCAGTT?CAGGAGGATA GCCAACTTCC?AGGACTACCA?CGGCCTGCCG?GAGTTCAGAG?AGGTATTAAT TAAGTTAACT?AACAGCTCGG?CTAAGGAAAC?GCCAGAATCA?TTGATTAGGT TTGCTGCTCT?CTAATGGCGA?CTGCGAAAAC?GACGGAGCAG?CTACCGGCCA GCCGGCCGGC?GGTTAGCTAG?CACTAGCAGC?CGCCTTCCTG?ACAGATCATC CATGACGTTT?TGATTGTTGC?AGGCGATGGC?CAAGTTCATG?GGCCAGGTGA GGGCCGGGAA?GGTGACGTTC?GACCCCGACC?GCGTCGTCAT?GTGCGGAGGC GCCACCGGCG?CGCAGGACAC?TCTCGCCTTC?TGCCTCGCTG?ACCCGGGCGA CGCCTACCTC?GTGCCGACGC?CATACTACCC?AGCGTATGTC?TCGACCAACG TCATCCTTGT?ACTTGTACCA?AAATTAGTCA?CCCGTTGACA?CGAAAGTTGG TAAGAGGGTA?AGAGCAGGGA?AAGGCAGAGC?TAAGGCCCTG?TTTGGTTTGA GGTGACTAAA?GTTTAGTGAC?TAATATTTAG?TCACTTTTAG?TCTCTAAAGA AGTAAACATG?GTGACTAAAG?TGAAGTGACT?AAATTTTAGT?TCTTTAGTCA CTAAGAGGCT?GACTAAAAGG?GACTAAAGTA?GTATTTTTAC?CTTATTTGTC CTCTCCACTT?TCTTCTTATA?GCAAACATCT?ATTAATTAAT?AGGGATAAAA TAATCATTAT?TCACAGCAAT?TAATGCCCTT?TAGTCCGGTT?TAGTCACTGG AACCAAACGG?GATACTTTAG?CGACTAAACT?TTAGTCACTA?AAATTTAGTC TAGTGACTAA?GGGAACCAAA?CAGGACCTAA?TTCGAGTGTG?ATGTCAACAA

		GACAACAAAT?AATAGCCAAT?TGTAGCCCCT?CGCCATCTTT?CCTTGTTTGG GTAACGTTTC?AAAATTTAGG?GGGTGTTTGG?TTTCTAGGGA?CTAATGTTTA GTCCCTTCAT?TTTATTCCAT?TTTAGTATAT?AAATTGTCAA?ATATAAAAAC CAAAATAGAG?TTTTAGTTTC?TATATTTGAC?AATTTTAGAA?CTAAAATGAA ATAAAATGTA?GGGACTAAAG?TATAAACTAA?ACACCCCCTT?ACCTCGATCA CGAACCTCTA?AAAGTAAGTA?GCACCCTCCT?CCCCCACAGT?CAAATCAACA TAATACAGTA?CAATAGACCT?TGTTAGTCGC?ATGGATGATT?GTCGTCAAGT GGGCAACGCA?ATCTAGTCAC?GTAAGGAAAA?CCATGCACGT?TGTTCATACA CGGTCTGTTT?CCATGCGACT?TTAATTTCCA?CGCACGTTTG?CATCGTTGAC CAACCAACTG?AACGTGCCTG?TAGGTCCCGC?ACAGCAACGT?AAGCATATGC ATGCACGTAC?GACGTACGGC?ACGGGAAAAA?AATTCTGCAC?ACCGTATTTT ACAGCTCTTC?ATATCCACCA?CATGTAGCGG?CCCCACAAAA?AACAGATTAA AATTTGCAAC?TTAATCCTTA?AGTAATTTGT?TTTTCTTCTA?TTTATATAGA TTATCAGTTG?ATGGATGTGT?GAAGTTGTAA?AAGAGATTAT?TTGTATCCAG GATTAAAATA?ATTTTCCGTA?CGGCACGCCT?GCAGTACTCA?TTCTCGCCAG CCCTGAGCCC?CTGATATATG?ACACGCTTTT?CATTGTTCAC?ACAGTTTCGA CCGTGACTGT?TGCTGGAGGT?CAGGCGTGAA?GCTGCTGCCC?ATCGAATGCC ACAGCTCAAA?CAACTTCACC?CTCACACGGG?AGGCGCTCGT?GTCGGCCTAC GACGGCGCGC?GGAGGCAGGG?CGTCCGCGTC?AAGGGCGTCC?TCATCACCAA CCCCTCCAAC?CCGCTGGGCA?CCACCATGGA?CCGCGCCACG?CTGGCGATGC TCGCCAGGTT?CGCCACGGAG?CACCGTGTCC?ACCTCATCTG?CGACGAGATC TACGCGGGCT?CCGTCTTCGC?CAAGCCGGAC?TTCGTGAGCA?TCGCCGAGGT CATCGAGCGC?GACGTCCCGG?GCTGCAACAG?GGACCTCATC?CACATCGCGT ACAGCCTCTC?CAAGGACTTC?GGCCTCCCGG?GCTTCCGCGT?CGGCATCGTC TACTCGTACA?ACGACGACGT?CGTGGCCTGC?GCGCGCAAGA?TGTCCAGCTT CGGCCTCGTC?TCCTCGCAGA?CGCAGCACTT?CCTGGCGAAG?ATGCTGTCGG ACGCGGAGTT?CATGGCCCGC?TTCCTCGCGG?AGAGCGCGCG?GCGGCTGGCG GCGCGCCACG?ACCGCTTCGT?CGCGGGACTC?CGCGAGGTCG?GCATCGCGTG CCTGCCCGGC?AACGCGGGGC?TCTTCTCGTG?GATGGACCTG?CGGGGCATGC TCCGGGACAA?GACGCACGAC?GCGGAGCTGG?AGCTGTGGCG?GGTCATCGTA CACAAGGTGA?AGCTCAACGT?GTCGCCCGGC?ACGTCGTTCC?ACTGCAACGA GCCCGGCTGG?TTCCGCGTCT?GCCACGCTAA?CATGGACGAC?GAGACCATGG AGGTCGCGCT?CGACAGGATC?CGCCGCTTCG?TGCGCCAGCA?CCAGCACAAG GCCAAGGCCG?AGCGCTGGGC?GGCCACGCGG?CCCATGCGCC?TCAGCTTGCC GCGCCGGGGA?GGCGCCACCG?CTTCGCACCT?CCCCATCTCC?AGCCCCATGG CGTTGCTGTC?GCCGCAGTCC?CCGATGGTTC?ACGCCAGCTA?GTCACCGAGC ATCCGGCAAG?ACTGGCTGTA?GGGTGTGCCC?GTACATCCGT?ACGTACACCT TTTTTTCCCA?TTCACGTGAC?TGCAATCAAG?TCTATGGGAT?GGTTGACAAA AGACTATCTA?GACAAGAGTG?GGCGTAGTAC?GTAACTAGTT?TGACGTTGTA CAGGCGTCAG?CAGGTATCGG?TAAGCAGCTA?GTCAAAAGCA?CGCAAGCAGG ACGCATTTGT?CCTCGATACT?TTCGTGTAAA?TCTCTCTCTA?TTTTTTTTTG CGAAATTCGC?GTGTATGGTT?TGTTTTGACG?TTGGTATAAA?GTATGGTAGA ATAACGATGG?GAAATGGCAA?TTTAGTCCTC?CCGATCAATT?GTTATTGTAA ACCACTGACG?AAAGTTAAGA?ACAGAAGCTG?TACCAGAAGG?GTGAATAAAA ATACCACATA?GGTATTGAAT?TAATAATCTA?TGTATTTCGA?GTTACTCCTG CAAGATATCT?ATTTTTTCAT?GCTGTGCTGG?CCACATTTGC?CTCTTCTTCA AACTAGTTTC?TCGCA
			?SEQ?ID：2	Gene A CS6 (ACC6) is from Zea mays (Zm) self-mating system ' B73's '	CGGCTAGTTT?TGATAGTTAG?ACGATGTTCT?GACAGCGCAC?CAGACAGTAA CCAGTGACAG?TCCGGTGCCT?GGCTAAATAT?CGAGCCAGCG?AACAGCGCGC TCTCGGGTTT?CTACGGGGGC?AGAGGGTTGC?TCTCGGGGCA?TTCTTGTGCT CACTGTCAGG?GGGAGCACCA?GACAGTCCGG?TGCACAGCGA?ACAGTCTGAT GCCCCTAGGT?CAGCAAGTCA?AAGTTCTCTT?CCTTAGATTT?TTCTAAACCG TTTTCGTTTT?AACTTGTGAG?TGAGTTATCG?AGTGACACCT?AGCACTAGTT GTGAGTATGA?ACACCAACAC?TATATTAGAT?TTCTCTTGGT?CAAACTACTC ATCCACAACC?ACTCTTTATA?GTACGGCTAA?AATAAAAATA?GAAGTCCTAA CTTTATACCA?AGTGTCAACA?ACTCCTTCGG?ACACTTAGAA?TATAAAGTCC

Acc synthase gene sequence (A65) the ACC6 pcr fragment of the original separation of self-mating system ' Oh43 ' (=from)

TTCATCTTTT?GTTTCGCCTT?TTTCCGCCGT?CGCTTCAAGT?TCTCATCCGA GGGATTGTTT?TATCGTTGTA?GTGCAACTTC?ATGCAATGTG?ACCTAACTTG CCATTTGCTC?TTCAAAACAC?ACGTTAGTCA?TATAATATTA?CGTTGTCATT AATCTCTATC?GATATTTTTC?ACCCATTACG?TTGTCACTAG?ATGCTTTCAC CCATTTCGAT?TTCAGACGAT?GTCTTCGGAC?GTTGCGGGCC?ATGTGTCCAA ACGTGGTTAA?GTGTGGTCGG?GAAATACCCG?ATCGAGGTTG?AGTTCGGCCT TCGCTCCGAC?ACCCAGCCGT?GTCATTACTG?TCATATATAT?TGTAGCAATG TCAAAAAAAA?TCAAAACATT?GAGTATGACG?TATAGGGCAC?ATATGTCATT AAACTTATTC?AGTGTAATGA?TATATTATCA?TCACGGGACT?TTTTTTTAAT GTATGTATTA?GATTACCTCT?GCCATGCACT?ATACAAACAG?CTACGCCGCA GTCGCAAGCA?AACAGGCTCT?AAAAGGCTTC?AGTCGGAGAA?GGATATGAGA GCGGTGAGTA?CCAAACGGGT?ATCTTCCCCT?TCCAAATGAT?ATAAGCCTAC TTGTTTGACC?CCAGCCCGCA?GGCAGTCATC?TGCTATAATA?GGCTAATACA ACTTGTGTAC?TCTAGTCTGC?TCTCGCCGCG?TTGTCCGCAT?GCTGAACCCG CGATGTTAAC?ACCTCCCTGA?ACGAGTCCTC?TGTTCCTCAA?CTGAAATTCA GCAATAAAAG?GAAAAATCCG?CGGTCCCTGT?CCCTGTCCAG?CACCGCACTC TCGCACTTGT?GCTGCAGGCT?TCTGAGCTCG?GCACCTGCTG?CTAGCTGCTG CTATATATAG?ACGCGTTTTG?GGGTCACCAA?AACCACCAGC?TGATCAACAG CTAGCTTCAT?TCCTCTGCCT?CTCTCTCCCT?CCTTCGCCAA?CTGGCCATCT CTGTTGTCTC?TCGCTAGCTA?GCTCGCTCGC?TCGCTCGCCA?GTCACCACAC ACACACACAC?ACACTGTGTG?TCTGTGCCTG?ACGCCGCCCC?CCAGTTTCAA ACGAACGACC?CAGCCAGAAA?CGCGCGCGCG?CCAAAGCTAC?GTGAGTGACG TGGCAGCATG?GTGAGCATGA?TCGCCGACGA?GAAGCCGCAG?CCGCAGCTGC TGTCCAAGAA?GGCCGCCTGC?AACAGCCACG?GCCAGGACTC?GTCCTACTTC CTGGGGTGGG?AGGAGTATGA?GAAAAACCCA?TACGACCCCG?TCGCCAACCC CGGCGGCATC?ATCCAGATGG?GCCTCGCCGA?GAACCAGCTG?TCCTTCGACC TGCTGGAGGC?GTGGCTGGAG?GCCAACCCGG?ACGCGCTCGG?CCTCCGCCGG GGAGGCGCCT?CTGTATTCCG?CGAGCTCGCG?CTCTTCCAGG?ACTACCACGG CATGCCGGCC?TTCAAGAATG?TGAGTGCCTG?CTAGCTTACT?CATTCCCAGG CAGGCAGGCA?GCCAGCCACG?GCATGCCGAA?CCAGTCTGAC?CTCTCTCGCG CACATGAATG?CGTGATTCCC?GCAGGCATTG?GCGAGGTTCA?TGTCGGAGCA ACGTGGGTAC?CGGGTGACCT?TCGACCCCAG?CAACATCGTG?CTCACCGCCG GAGCCACCTC?GGCCAACGAG?GCCCTCATGT?TCTGCCTCGC?CGACCACGGA GACGCCTTTC?TCATCCCCAC?GCCATACTAC?CCAGGGTATG?TGTGTGTGTT GCCTTGTACT?TACTCGTCGC?CGCAAGTACT?TGCAGTAGGG?AACGTGCAAG TGGCGGCGGG?GCGGCGTCTG?GGTGTCGCCG?CGATGCACGT?TACTGCTATT AAAGTAGTAG?TAGTACACTA?ATAGCTAGGC?CCACCACAGC?ACACGATGAC ATGACGAACG?ATGGATGGGA?ACGGCTGCTG?ACTGGGCCTG?CTTGCTCTTG TCTGCAGGTT?CGACCGTGAC?CTCAAGTGGC?GCACCGGCGC?GGAGATCGTC CCCGTGCACT?GCACGAGCGG?CAACGGCTTC?CGGCTGACGC?GCGCCGCGCT GGACGACGCG?TACCCGCGCG?CGCAGAAGCT?GCGGCTGCGC?GTCAAGGGCG TGCTCATCAC?CAACCCTTCC?AACCCGCTGG?GCACCACGTC?GCCGCGCGCC GACCTGGAGA?TGCTGGTGGA?CTTCGTGGCC?GCCAAGGGCA?TCCACCTGGT GAGCGACGAG?ATATACTCGG?GCACGGTCTT?CGCGGACCCG?GGCTTCGTGA GCGTCCTCGA?GGTGGTGGCC?GCGCGCGCCG?CCACGGACGA?CGGCGTCGTC GGCGTTGGGC?CGCTGTCGGA?CCGCGTGCAC?GTGGTGTACA?GCCTGTCCAA GGACCTGGGC?CTCCCGGGGT?TCCGCGTGGG?CGCCATCTAC?TCGTCCAACG CCGGCGTGGT?CTCCGCGGCC?ACCAAGATGT?CGAGCTTCGG?CCTGGTGTCG TCCCAGACGC?AGCACCTCCT?GGCGTCGCTC?CTGGGCGACA?GGGACTTCAC GCGGAGGTAC?ATCGCGGAGA?ACACGCGGCG?GATCAGGGAG?CGGCGCGAGC AGCTGGCGGA?GGGCCTGGCG?GCCGTGGGCA?TCGAGTGCCT?GGAGAGCAAC GCGGGGCTCT?TCTGCTGGGT?CAACATGCGG?CGCCTGATGC?GGAGCCGGTC GTTCGAGGGC?GAGATGGAGC?TGTGGAAGAA?GGTGGTCTTC?GAGGTGGGGC TCAACATCTC?CCCGGGCTCC?TCCTGCCACT?GCCGGGAGCC?CGGCTGGTTC CGCGTCTGCT?TCGCCAACAT?GTCCGCCAAG?ACGCTCGACG?TCGCGCTCCA GCGCCTGGGC?GCCTTCGCGG?AGGCCGCCAC?CGCGGGGCGC?CGCGTGCTTG CCCCCGCCAG?GAGCATCAGC?CTCCCGGTCC?GCTTCAGCTG?GGCTAACCGC CTCACCCCGG?GCTCCGCCGC?CGACCGGAAG?GCCGAGCGGT?AGCCGGTCCC CGTCCGCGCC?GACCGCACGT?GCTCAGCTCA?GCAGCTTCAC?AGCTCACCAC

		CAGTCACCAC?CACCACCACC?ACCACCACCT?GGGGTGGAGG?CGTGGAGCAA GCAATGTTCA?TAGAAACCAC?GGTCACGTAC?TATACAATAC?TACTACCGTA CCACACCACA?CGGCAGCATC?ATTAGCAGTA?GGAGATTAGT?AGTAATCATT AATTCCTTAT?TGGGTTCTTG?TAATTTCGTA?TATACCACGC?CCCCATTTTT CCTTGGGGCC?AGGCCAGCCG?ATAGGTGCCC?GAGGGCCACT?GCACTGCACT GCTGTATTAG?GTAGGAGCAG?GAGTGGTGGG?TAGCGAATCC?ACCTTCCAGC AGCAGGCATC?ACATTTGTGT?ATTTTTCGAC?TGGGTCTCCC?GGTTGTTTT
			?SEQ?ID：3 CAGTCACCAC?CACCACCACC?ACCACCACCT?GGGGTGGAGG?CGTGGAGCAA	Gene A CS7 (ACC7) is from the acc synthase gene sequence (A50) of maize (Zm) self-mating system ' B73 ' the ACC7 pcr fragment of the original separation of self-mating system ' Oh43 ' (=from)	GCTGGTAGCT?TCTTTAACTG?ATCTCAATGG?GGCATTTCGG?TGGCTAGCAA TTCACATTAA?TAATTTAAAA?GTGAATTTCA?GGTGTACATT?TGATGGCCTC CGATATGGTG?CAGCCTTCAA?TCCTCTACAA?TGTGCGAGAA?TGTTGCTCCG GAGGGTAGAG?GCGATTAACG?GCTGAACACA?GATGACCTCC?TCGGAGTCAT GTTTCTAATT?ATCTACACTA?CGATTCTCTT?TCCGTTGATA?AAATATTTGT TTTATTGTCC?TGTGAGCTAA?TGATAACATT?GATGGTAAGT?AAATATAGTC CATGCATATT?CTCATCACAG?ATGGCTGAAA?AACTCCCGGT?GCTGCTACAC TACTAGAGTC?TTCATGTGCA?TACTTACTTC?AAGAACTCAA?GGTACACAAA GTTTTCTCAA?CAGAAGAATG?TGTATCTGTT?TGATTCCAGC?TGAAATGCTT ACTAAACTCA?GTGTGTCGCT?TTAGATGATA?TGAGATGAAG?TTGGGCAAGA CCAAAGTGAA?AGGGAGAGAA?TAACGGAAGA?ACTTGTTCGC?CAACTTGGAG AAACCAATAC?TAAAACTCAG?TGAATATATG?TGTGGATTTG?GAAGCAAGTG AATTTTACAG?AAAAGTTTTT?TGAGAGTGTT?TATATGAATC?GTACTCATCT GTTTATTTTG?ATGACTGCAA?TATAACTACT?TGTATTTATA?GTTTGAGATC AAGAAAATAA?GTTATTATTT?AGAAATAATA?AAAAATTATA?GTGATGTTTG TTGTTCCGTA?TCAATGTTTC?ATACAAATGT?TTTACTTCCG?TCGCAACACA CGGGAATATA?CCTATAATAT?ATATTGTTAT?CATGTTATTA?TACGGTTCCG TTGCAACGCA?CGGGCACATA?CCTAGTACAA?AAATAATTAC?GCATCCCGCA GTTGACATCT?GGGAGCGCTA?CAAATAATGA?AGGCAGCTGG?TCCACCACAC GAACTGACAG?CGCGGAGAAG?GGAGTGCACC?GGCCCACCGG?GATGGCACCG CGAATCAGCC?TCGGCAGCGC?CATACTGCCC?ACCCATTTTT?TCTGGCGAAT CCGGGTGCGG?CGGGCGGTTG?AGGATGAATT?GAATAATACT?CTACTTCCTA ATGGTCGTGC?TAGCAGACCC?TGGAAGCTCA?GTGTGGCTCC?AAAACCCATT AATTAATTAA?ACCACAAAGC?CGCCGCCGTT?AGACCTAGAA?CCACCGCTGC GCTCGCCGGG?CGCCGGCTAC?CCGGCGTAAC?TGCCGTCACC?ATCCACCACC TGGCCGCTCC?GTTCTTTCCT?CCACCCCAAG?ATGGAGCCGG?TTAACCTGTC CAATCTTACC?TCATATGCGT?AATCAACTAT?TTTAACTTTC?ACTATATATA TATGTTAATA?TTTATAATAT?ATAATTTGTA?GTATAAGATA?AATATTTGAA TTTGTTTTTA?TAATAAACGT?ATTTTGACAT?ATAAATATTG?GTAATATTTT TTTTTTACAA?ATCTGACTAG?ATTTTAAATC?TGTAACGAGG?AGTACATAGT ACGAAATGTT?GAAAAGTCAG?CGTGTCTTTG?GTCGCGTTCG?CATTCATTCT TTCTTTACCT?CACCCACCCA?CCTGCCACAC?CCTGTGGGCC?GTGGCGCCTT CACGGAAGGT?TCGCCGGCCA?CGCATGGAGG?CGGCTCTTTA?TAAAGCTGGT GCGCGGGCGG?GAGGGGAGAG?GGCACCAGAA?GCAGCCAGCA?AGCTCATGCC CTTCAAAAGC?CTCCGGCAGC?CCAGCGCCCC?AGCCAGCTAG?TGGTGATCTC TCATCTCAGC?AGCGCGCCTG?AACGTGTGCT?CCCTGCTAAG?CTCTGCGCCT CGATAGGCAA?AGGAAAATCA?AACCGATCGT?CGTCAGATTA?AATGGCCGGT AGCAGCGCGG?AGCAGCTCCT?CTCCAGGATC?GCCGCCGGCG?ACGGCCACGG CGAGAACTCG?TCCTACTTCG?ACGGGTGGAA?GGCCTACGAC?ATGAACCCTT TCGACCTGCG?CCACAACCGC?GACGGCGTCA?TCCAGATGGG?CCTCGCCGAG AACCAAGTAC?GTACCTATAG?CGTGTACCTA?CCCTTCCGAT?CTGTAGTACT GCCCACACTT?GCTGCATGCT?GCTGCCGATC?CAAGTCCAAT?GCTCATGTAA ACTGGCGTGC?TGCAGCTGTC?GTTGGACCTG?ATCGAGCAAT?GGAGCGTGGA CCACCCGGAG?GCGTCCATCT?GCACGGCGCA?GGGCGCGCCG?CAGTTCCGGA GGATAGCCAA?CTTCCAGGAC?TACCACGGCC?TGCCGGAGTT?CAGAGAGGTA ACTAACTAGT?AGTGATTAAC?AAGCAAATAA?ACGCCAGGAT?CACTGCATCG ATTAGCTAGG?TTTGCTGCTG?CTGCTGCTGC?TGTCTAATAT?AATGGCGACT GCACGCGAAA?AGCGACGGAG?CAGCTACCGG?CCGGCGGCTA?GCTAGCTAGC TGGCACTGGC?AGCGCAGTCG?CCTTCATGAG?TCCACGCACG?CGCGGCTACG TCTTAATGAT?CGATCGGCTC?GTCGTTTGTT?GCAGGCGATG?GCCAAGTTCA

		TGGGGCAGGT?GAGGGGCGGC?AAGGTGACGT?TCGACCCCGA?CCGCGTCGTC ATGTGCGGAG?GAGCCACCGG?CGCGCAGGAC?ACTCTCGCCT?TCTGCCTCGC TGACCCGGGC?GACGCCTACC?TCGTGCCGAC?GCCTTATTAC?CCAGCGTATG TTCTGACGTC?ACCCTTGTAC?TGCCAAACTA?CTACTCAGGT?CCTAGTCATA TCCGTAGACA?CGAAAGGGTG?GGTGGGTCTG?GGTTGTTGGT?TGGTCAAGAG CACGCAAAAT?TGAGCTAATT?CGACTACGTA?CGTGTCAATG?TCAACTAGCC ACTTATCTTT?CCTTGTTTGG?GTAAAGTTTC?AAAACTTATT?AACTCGATCA GGAACCTCTC?TAAAAAGCAT?TCACCTATTT?TTCCCCCGTA?AGGCGGTAAC CAAATCTAAA?CGATATACCC?TTGTTAGTCG?CACTGATGAC?TGCATTGTCG TCAAGTGGAC?AACGCAATCT?AGTCACGCGA?CCTCTAAGGA?AAACCACGCA CGTATACGCA?CTTCGTGCAC?GGTCTGTTCC?ACGCGACTTT?AGTTTCCATG CACGTTTACA?TCGTTGACCA?TCCGCAGTCC?GCACAGCAAC?GTAAGCATAA ACATGCACGC?ACGACGTACG?GCACACCGTA?CCTGTTCCTC?TCGAGGGCTG AGACCCTGAC?ACGTTTTTTT?CGTTGTGTGG?TGATCACAGT?TTCGACCGCG ACTGTTGCTG?GAGGTCAGGA?GTGAAGCTGC?TGCCCATCGA?ATGCCACAGC TCGAACAACT?TCACCCTCAC?CAGGGAGGCG?CTCGTGTCGG?CCTACGACGG CGCGCGGAGG?CAGGGCGTCC?GCGTCAGGGG?CATCCTCATC?ACCAACCCCT CCAACCCGCT?GGGCACCACC?ATGGACCGCG?GCACGCTGGC?GATGCTCGCC GCGTTCGCCA?CAGAGCGCCG?CGTCCACCTC?ATCTGCGACG?AGATCTACGC GGGCTCCGTC?TTCGCCAAGC?CGGGCTTCGT?GAGCATCGCC?GAGGTCATCG AGCGCGGCGA?CGCCCCGGGC?TGCAACAGGG?ACCTCGTCCA?CATCGCGTAC AGCCTCTCCA?AGGACTTCGG?CCTCCCGGGC?TTCCGCGTCG?GCATCGTCTA CTCCTACAAC?GACGACGTGG?TGGCCTGCGC?GCGCAAGATG?TCCAGCTTCG GCCTCGTCTC?GTCGCAGACG?CAGCACTTCC?TGGCGATGAT?GCTCGCCGAC GCGGAGTTCA?TGGCACGCTT?CCTCGCGGAG?AGCGCGCGGC?GGCTGGCGGC GCGCCACGAC?CGCTTCGTCG?CGGGCCTCCG?CGAGGTCGGC?ATCGCGTGCC TGCCGGGCAA?CGCGGGCCTC?TTCTCGTGGA?TGGACCTGCG?GGGCATGCTC CGGGAGAAGA?CGCACGACGC?GGAGCTCGAG?CTGTGGCGGG?TCATCGTACA CAGGGTGAAG?CTCAACGTGT?CGCCCGGCAC?GTCGTTCCAC?TGCAACGAGC CCGGCTGGTT?CCGCGTCTGC?TACGCCAACA?TGGACGACGA?CACCATGGAG GTCGCGCTCG?ACCGGATCCG?CCGCTTCGTG?CGCCAGCACC?AGCACAGCAA GGCCAAGGCC?GAGCGCTGGG?CGGCCACGCG?GCCCCTTCGC?CTCAGCTTGC CGCGCCGGGG?AGCAACCACC?GCTTCGCATC?TCGCCATCTC?CAGCCCCTTG GCGTTGCTGT?CGCCGCAGTC?CCCGATGGTC?CACGCCAGCT?AGGTAGTCAC CGAGCGTTCG?GTAAGACTGG?CTGTAGGTTG?TGCCCTCACA?TGACTGCAAA CAAGTGGACA?AAAAAAAAGA?CAAGACTAAT?AAAGGGCGTA?CGTAGCTAGC TTGACATTAC?ACAGAGTGAC?AGAGACGTTG?CACAGGCGTC?AGCAGGCGTC GGCGGTAAGC?AGCTAGTCAA?GTAGGACGCA?TTTGTCCTCG?ATTTTTTCGT GTTTTTTTTT?TGACGAAGGG?GCGAAGCCCC?CTATTTCATT?AAGAAATAGG AAAGTATGAA?ACAACCGCAC?CCACGCGGTA?GGACCTCCAA?AAAGAACAGC CACGGCCAGA?AAGTAATCTA?GACTCTAAAC?ACTATCGCTA?GATCAGTGAA GAGACTATGA?TAACAGGGAA?AGTTTTGGCC?TACGAAGAGC?TACATAAGAC TTTCTTATAT?ACAACCAACC?AAGACAGGCA?GAAGCCACAA?AAGACCTGAA CAGAATGGCC?AACAAAAGAC?AGACAACTAT?CCCAACAAGG?TTTCACAGCT TCAGCATCTT?TGTCATCCAG?AAATCCGCCT?GTCAAGAGGA?CACCACCCCA AGGCCCTCCC?GAAAGCTTCA?CTTGCCGTCT?TTCGGATTAA?CCTGCTTCCT AGCACCACCA?TTCTTTGCTC?CTTCTTTTTC?TGACGAATCG?CCCAAGAATC CAACCAGAAG?CAGCAAAGAA?AAATGATGTT?AGATGGGTCA?AGTAAATGAC TATTCCCAAA?ACACCAATCA?TTCCTAGTGC?GCCAAATAGC?CCAGAATAAA GCACCACAAC?CAAATAACAC?CAACTGAGCC?ATCGTGTCTT?TTGGTTTACA AAACCAATTG?TCATACAAAT?CTTTGATATT?TTTTGGAATA?GATCTCAAAT TCAGGGCCAC?TTGAATAACT?CTCCACATGT?ATTGAGCAAT?GGGGCAATAG AAAAA
			SEQ?ID：4	CDNA ACS2 (ACC2) is from beautiful another name for Sichuan Province	ATGGCCGGTGGTAGCAGTGCCGAGCAGCTCCTATCCAGGATCGCCTCCGGCGATGGCCAC GGCGAGAACTCGTCCTACTTCGACGGGTGGAAGGCCTACGACATGGACCCTTTCGACCTG CGCCACAACCGCGACGGCGTCATCCAGATGGGCCTCGCCGAGAACCAACTGTCCCTGGAC CTGATCGAGCAATGGAGCATGGAGCACCCGGAGGCGTCCATCTGCACGGCGCAGGGAGCG TCGCAGTTCAGGAGGATAGCCAACTTCCAGGACTACCACGGCCTGCCGGAGTTCAGAGAG GCGATGGCCAAGTTCATGGGCCAGGTGAGGGCCGGGAAGGTGACGTTCGACCCCGACCGC

	The acc synthase cDNA sequence (A47) of broomcorn millet (Zm) self-mating system ' B73 ' ACC2 pcr fragment of the original separation of self-mating system ' Oh43 ' (=from)	GTCGTCATGTGCGGAGGCGCCACCGGCGCGCAGGACACTCTCGCCTTCTGCCTCGCTGAC CCGGGCGACGCCTACCTCGTGCCGACGCCATACTACCCAGCGTTCGACCGTGACTGTTGC TGGAGGTCAGGCGTGAAGCTGCTGCCCATCGAATGCCACAGCTCAAACAACTTCACCCTC ACACGGGAGGCGCTCGTGTCGGCCTACGACGGCGCGCGGAGGCAGGGCGTCCGCGTCAAG GGCGTCCTCATCACCAACCCCTCCAACCCGCTGGGCACCACCATGGACCGCGCCACGCTG GCGATGCTCGCCAGGTTCGCCACGGAGCACCGTGTCCACCTCATCTGCGACGAGATCTAC GCGGGCTCCGTCTTCGCCAAGCCGGACTTCGTGAGCATCGCCGAGGTCATCGAGCGCGAC GTCCCGGGCTGCAACAGGGACCTCATCCACATCGCGTACAGCCTCTCCAAGGACTTCGGC CTCCCGGGCTTCCGCGTCGGCATCGTCTACTCGTACAACGACGACGTCGTGGCCTGCGCG CGCAAGATGTCCAGCTTCGGCCTCGTCTCCTCGCAGACGCAGCACTTCCTGGCGAAGATG CTGTCGGACGCGGAGTTCATGGCCCGCTTCCTCGCGGAGAGCGCGCGGCGGCTGGCGGCG CGCCACGACCGCTTCGTCGCGGGACTCCGCGAGGTCGGCATCGCGTGCCTGCCCGGCAAC GCGGGGCTCTTCTCGTGGATGGACCTGCGGGGCATGCTCCGGGACAAGACGCACGACGCG GAGCTGGAGCTGTGGCGGGTCATCGTACACAAGGTGAAGCTCAACGTGTCGCCCGGCACG TCGTTCCACTGCAACGAGCCCGGCTGGTTCCGCGTCTGCCACGCTAACATGGACGACGAG ACCATGGAGGTCGCGCTCGACAGGATCCGCCGCTTCGTGCGCCAGCACCAGCACAAGGCC AAGGCCGAGCGCTGGGCGGCCACGCGGCCCATGCGCCTCAGCTTGCCGCGCCGGGGAGGC GCCACCGCTTCGCACCTCCCCATCTCCAGCCCCATGGCGTTGCTGTCGCCGCAGTCCCCG ATGGTTCACGCCAGC
			?SEQ?ID：5	CDNA ACS6 (ACC6) is from the acc synthase cDNA sequence (A65) of maize (Zm) self-mating system ' B73 ' the ACC6 pcr fragment of the original separation of self-mating system ' Oh43 ' (=from)	ATGATCGCCGACGAGAAGCCGCAGCCGCAGCTGCTGTCCAAGAAGGCCGCCTGCAACAGC CACGGCCAGGACTCGTCCTACTTCCTGGGGTGGGAGGAGTATGAGAAAAACCCATACGAC CCCGTCGCCAACCCCGGCGGCATCATCCAGATGGGCCTCGCCGAGAACCAGCTGTCCTTC GACCTGCTGGAGGCGTGGCTGGAGGCCAACCCGGACGCGCTCGGCCTCCGCCGGGGAGGC GCCTCTGTATTCCGCGAGCTCGCGCTCTTCCAGGACTACCACGGCATGCCGGCCTTCAAG AATGCATTGGCGAGGTTCATGTCGGAGCAACGTGGGTACCGGGTGACCTTCGACCCCAGC AACATCGTGCTCACCGCCGGAGCCACCTCGGCCAACGAGGCCCTCATGTTCTGCCTCGCC GACCACGGAGACGCCTTTCTCATCCCCACGCCATACTACCCAGGGTTCGACCGTGACCTC AAGTGGCGCACCGGCGCGGAGATCGTCCCCGTGCACTGCACGAGCGGCAACGGCTTCCGG CTGACGCGCGCCGCGCTGGACGACGCGTACCGGCGCGCGCAGAAGCTGCGGCTGCGCGTC AAGGGCGTGCTCATCACCAACCCTTCCAACCCGCTGGGCACCACGTCGCCGCGCGCCGAC CTGGAGATGCTGGTGGACTTCGTGGCCGCCAAGGGCATCCACCTGGTGAGCGACGAGATA TACTCGGGCACGGTCTTCGCGGACCCGGGCTTCGTGAGCGTCCTCGAGGTGGTGGCCGCG CGCGCCGCCACGGACGACGGCGTCGTCGGCGTTGGGCCGCTGTCGGACCGCGTGCACGTG GTGTACAGCCTGTCCAAGGACCTGGGCCTCCCGGGGTTCCGCGTGGGCGCCATCTACTCG TCCAACGCCGGCGTGGTCTCCGCGGCCACCAAGATGTCGAGCTTCGGCCTGGTGTCGTCC CAGACGCAGCACCTCCTGGCGTCGCTCCTGGGCGACAGGGACTTCACGCGGAGGTACATC GCGGAGAACACGCGGCGGATCAGGGAGCGGCGCGAGCAGCTGGCGGAGGGCCTGGCGGCC GTGGGCATCGAGTGCCTGGAGAGCAACGCGGGGCTCTTCTGCTGGGTCAACATGCGGCGC CTGATGCGGAGCCGGTCGTTCGAGGGCGAGATGGAGCTGTGGAAGAAGGTGGTCTTCGAG GTGGGGCTCAACATCTCCCCGGGCTCCTCCTGCCACTGCCGGGAGCCCGGCTGGTTCCGC GTCTGCTTCGCCAACATGTCCGCCAAGACGCTCGACGTCGCGCTCCAGCGCCTGGGCGCC TTCGCGGAGGCCGCCACCGCGGGGCGCCGCGTGCTTGCCCCCGCCAGGAGCATCAGCCTC CCGGTCCGCTTCAGCTGGGCTAACCGCCTCACCCCGGGCTCCGCCGCCGACCGGAAGGCC GAGCGG
?SEQ?ID：6	CDNA ACS7 (ACC7) from the acc synthase cDNA sequence (A50) of maize (Zm) self-mating system ' B73 ' (=from selfing	ATGGCCGGTAGCAGCGCGGAGCAGCTCCTCTCCAGGATCGCCGCCGGCGACGGCCACGGC GAGAACTCGTCCTACTTCGACGGGTGGAAGGCCTACGACATGAACCCTTTCGACCTGCGC CACAACCGCGACGGCGTCATCCAGATGGGCCTCGCCGAGAACCAACTGTCGTTGGACCTG ATCGAGCAATGGAGCGTGGACCACCCGGAGGCGTCCATCTGCACGGCGCAGGGCGCGCCG CAGTTCCGGAGGATAGCCAACTTCCAGGACTACCACGGCCTGCCGGAGTTCAGAGAGGCG ATGGCCAAGTTCATGGGGCAGGTGAGGGGCGGCAAGGTGACGTTCGACCCCGACCGCGTC GTCATGTGCGGAGGAGCCACCGGCGCGCAGGACACTCTCGCCTTCTGCCTCGCTGACCCG GGCGACGCCTACCTCGTGCCGACGCCTTATTACCCAGCGTTCGACCGCGACTGTTGCTGG AGGTCAGGAGTGAAGCTGCTGCCCATCGAATGCCACAGCTCGAACAACTTCACCCTCACC AGGGAGGCGCTCGTGTCGGCCTACGACGGCGCGCGGAGGCAGGGCGTCCGCGTCAGGGGC ATCCTCATCACCAACCCCTCCAACCCGCTGGGCACCACCATGGACCGCGGCACGCTGGCG ATGCTCGCCGCGTTCGCCACAGAGCGCCGCGTCCACCTCATCTGCGACGAGATCTACGCG GGCTCCGTCTTCGCCAAGCCGGGCTTCGTGAGCATCGCCGAGGTCATCGAGCGCGGCGAC GCCCCGGGCTGCAACAGGGACCTCGTCCACATCGCGTACAGCCTCTCCAAGGACTTCGGC CTCCCGGGCTTCCGCGTCGGCATCGTCTACTCCTACAACGACGACGTGGTGGCCTGCGCG CGCAAGATGTCCAGCTTCGGCCTCGTCTCGTCGCAGACGCAGCACTTCCTGGCGATGATG CTCGCCGACGCGGAGTTCATGGCACGCTTCCTCGCGGAGAGCGCGCGGCGGCTGGCGGCG CGCCACGACCGCTTCGTCGCGGGCCTCCGCGAGGTCGGCATCGCGTGCCTGCCGGGCAAC GCGGGCCTCTTCTCGTGGATGGACCTGCGGGGCATGCTCCGGGAGAAGACGCACGACGCG

	The original isolating ACC7 pcr fragment of system ' Oh43 ')	GAGCTCGAGCTGTGGCGGGTCATCGTACACAGGGTGAAGCTCAACGTGTCGCCCGGCACG TCGTTCCACTGCAACGAGCCCGGCTGGTTCCGCGTCTGCTACGCCAACATGGACGACGAC ACCATGGAGGTCGCGCTCGACCGGATCCGCCGCTTCGTGCGCCAGCACCAGCACAGCAAG GCCAAGGCCGAGCGCTGGGCGGCCACGCGGCCCCTTCGCCTCAGCTTGCCGCGCCGGGGA GCAACCACCGCTTCGCATCTCGCCATCTCCAGCCCCTTGGCGTTGCTGTCGCCGCAGTCC CCGATGGTCCACGCCAGC
			?SEQ?ID：7	Synthase aa ACS2 (ACC2) is from the acc synthase amino acid sequence (A47) of maize (Zm) self-mating system ' B73 ' the ACC2 pcr fragment of the original separation of self-mating system ' Oh43 ' (=from)	MAGGSSAEQL?LSRIASGDGH?GENSSYFDGW?KAYDMDPFDL?RHNRDGVIQM GLAENQLSLD?LIEQWSMEHP?EASICTAQGA?SQFRRIANFQ?DYHGLPEFRE AMAKFMGQVR?AGKVTFDPDR?VVMCGGATGA?QDTLAFCLAD?PGDAYLVPTP YYPAFDRDCC?WRSGVKLLPI?ECHSSNNFTL?TREALVSAYD?GARRQGVEVK GVLITNPSNP?LGTTMDRATL?AMLARFATEH?RVHLICDEIY?AGSVFAKPDF VSIAEVIERD?VPGCNRDLIH?IAYSLSKDFG?LPGFRVGIVY?SYNDDVVACA RKMSSFGLVS?SQTQHFLAKM?LSDAEFMARF?LAESARRLAA?RHDRFVAGLR EVGIACLPGN?AGLFSWMDLR?GMLRDKTHDA?ELELWRVIVH?KVKLNVSPGT SFHCNEPGWF?RVCHANMDDE?TMEVALDRIR?RFVRQHQHKA?KAERAWATRP MRLSLPRRGG?ATASHLPISS?PMALLSPQSP?MVHAS
?SEQ?ID：8	Synthase aa ACS6 (ACC6) is from the acc synthase amino acid sequence (A65) of maize (Zm) self-mating system ' B73 ' the ACC6 pcr fragment of the original separation of self-mating system ' Oh43 ' (=from)	MIADEKPQPQ?LLSKKAACNS?HGQDSSYFLG?WEEYEKNPYD?PVANPGGIIQ MGLAENQLSF?DLLEAWLEAN?PDALGLRRGG?ASVFRELALF?QDYHGMPAFK NALARFMSEQ?RGYRVTFDPS?NIVLTAGATS?ANEALMFCLA?DHGDAFLIPT PYYPGFDRDL?KWRTGAEIVP?VHCTSGNGFR?LTRAALDDAY?RRAQKLRLRV KGVLITNPSN?PLGTTSPRAD?LEMLVDFVAA?KGIHLVSDEI?YSGTVFADPG FVSVLEVVAA?RAATDDGVVG?VGPLSDRVHV?VYSLSKDLGL?PGFRVGAIYS SNAGVVSAAT?KMSSFGLVSS?QTQHLLASLL?GDRDFTRRYI?AENTRRIRER REQLAEGLAA?VGIECLESNA?GLFCWVNMRR?LMRSRSFEGE?MELWKKVVFE VGLNISPGSS?CHCREPGWFR?VCFANMSAKT?LDVALQRLGA?FAEAATAGRR VLAPARSISL?FVRFSWANRL?TPGSAADRRA?ER
			?SEQ?ID：9	Synthase aa ACS7 (ACC7)	MAGSSAEQLL?SRIAAGDGHG?ENSSYFDGWK?AYDMNPFDLR?HNRDGVIQMG LAENQLSLDL?IEQWSVDHPE?ASICTAQGAP?QFRRIANFQD?YHGLPEFREA MAKFMGQVRG?GKVTFDPDRV?VMCGGATGAQ?DTLAFCLADP?GDAYLVPTPY YPAFDRDCCW?RSGVKLLPIE?CHSSNNFTLT?REALVSAYDG?ARRQGVRVRG

	From the acc synthase amino acid sequence (A50) of maize (Zm) self-mating system ' B73 ' the ACC7 pcr fragment of the original separation of self-mating system ' Oh43 ' (=from)	ILITNPSNPL?GTTMDRGTLA?MLAAFATERR?VHLICDEIYA?GSVFAKPGFV SIAEVIERGD?APGCNRDLVH?IAYSLSKDFG?LPGFRVGIVY?SYNDDVVACA RKMSSFGLVS?SQTQHFLAMM?LADAEFMARF?LAESARRLAA?RHDRFVAGLR EVGIACLPGN?AGLFSWMDLR?GMLREKTHDA?ELELWRVIVH?RVKLNVSPGT SFHCNEPGWF?RVCYANMDDD?TMEVALDRIR?RFVRQHQHSK?AKAERWAATR PLRLSLPRRG?ATTASHLAIS?SPLALLSPQS?PMVHAS
			?SEQ?ID：10	CCRAl78 R	ATGACCATGA?TTACGCCAAG?CTCTAATACG?ACTCACTATA?GGGAAAGCTG GTACGCCTGC?AGGTACCGGT?CCGGAATTCC?CGGGTCGACC?CACGCGTCCG CAGCAAGCTC?ATCCCCTTCA?AAACCCTCCG?GCAGCCCAGC?CAGCTAGTGG TGATCTCTCA?GCAGCGCGCC?TGAACGTGTG?CTCCCTGCTA?AACTCTGCGC CTCGGTAGGC?AAGGAAAATT?AAACCGGTCG?TCGTCAGATT?AAATGGCCGG TAGCAGCGCG?GAGCAGCTCC?TCTCCAGGAT?CGCCGCCGGC?GATGGCCACG GCGAGAACTC?GTCCTACTTC?GACGGGTGGA?AGGCCTACGA?CACGAACCCT TTCGACCTGC?GCCACAACCG?CGACGGCGTC?ATCCAGATGG?GACTCGCCGA GAACCAACTG?TCGCTGGACC?TGATCGAGCA?ATGGAGCGTG?GACCACCCGG AGGCGTCCAT?CTGCACGGCG?CAGGGCGCGC?CGCAGTTCCG?GAGGATAGCC AACTTCCAGG?ACTACCACGG?CCTGCCGGAG?TTCAGAGAGG?CGATGGCCAA GTTCATGGGG?CAGGTGAGGG?GCGGCAAGGT?GACGTTCGAC?CCCGACCGCG TCGTCATGTG?CGGGGGAGCC?ACCGGCGCGC?AGGACACTCT?CGCCTTCTGC CTCGCTGACC?CGGGCGACGC?CTACCTCGTG?CCGACGCCTT?ATTACCCAGC TTTCGACCGC?GACTGTTGCT?GGAGGTCAGG?AGTGAAGCTG?CTGCCCATCG AATGCCACAG?CTCGAACAAC?TTCACCCTCA?CCAGGGAGGC?GCTCGTGTCG GCCTACGACG?GCGCGCGGAG?GCAGGGCGTC?CGCGTCAGGG?GCATCCTCAT CACCAACCCC?TCCAACCCGC?TGGGCACCAC?AATGGACCGC?GGCACGCTGG CGATGCTCGC?CGCGTTCGCC?ACAGAGCGCC?GCGTCCACCT?CATCTGCGAC GAGATCTACG?CGGGCTCCGT?CTTCGCCAAG?CCGGGCTTCG?TGAGCATCGC CGAGGTCATC?GAGCGCGGCG?ACGCCCCGGG?CTGCAACAGG?GACCTCGTCC ACATCGCGTA?CAGCCTCTCC?AAGGACTTCG?GCCTCCCGGG?CTTCCGCGTC GGCATCGTCT?ACTCCTACAA?CGACGACGTG?GTGGCCTGCG?CGCGCAAGAT GTCCAGCTTC?GGCCTCGTCT?CGTCGCAGAC?GCAGCACTTC?CTGGCGATGA TGCTCGCCGA?CGCGGAGTTC?ATGGCACGCT?TCCTCGCGGA?GAGCGCGCGG CGGCTGGCGG?CGCGCCACGA?CCGCTTCGTC?GCGGGCCTCC?GCGAGGTCGG CATCGCGTGC?CTGCCGGGCA?ACGCGGGCCT?CTTCTCGTGG?ATGGACCTGC GGGGCATGCT?CCGGGAGAGG?ACGCACGACG?CGGAGCTGGA?GCTGTGGCGG GTCATCGTAC?ACAGGGTGAA?GCTCAACGTG?TCGCCCGGCA?CGTCGTTCCA CTGCAACGAG?CCCGGCTGGT?TCCGCGTCTG?CTACGCCAAC?ATGGACGACG ACACCATGGA?GGTCGCGCTC?GACCGGATCC?GCCGCTTCGT?GCGCCAGCAC CAGCACAGCA?AGGCCAAGGC?CGAGCGCTGG?GCGGCCACGC?GGCCCCTCCG CCTCAGCTTG?CCGCGCCGGG?GAGCAACCAC?CGCTTCGCAC?CTCGCCATCC CCAGCCCCTT?GGCGTTGCTG?TCGCCGCAGT?CCCCGATGGT?CCACGCCAGC TAGCTAGTCA?CCGAGCGTTC?GGTAAGACTG?GCTGTAGGGT?GTGCCCTCAC ATAACTGCAA?ACAAGTGGAC?AAAAAATATT?AGACAAGACT?AATAAAGGGC ATTAGTAGCT?AGCTTGACAT?TACACAGAGA?CGTTGCACAG?GCGTCAGCAG GCGTCGGCGG?TAAGCAGCTA?GTCAAGCAGG?ACGCATTTGT?CCTCGATTTT TTCGTGTATA?TATGTTCTTT?TTTCTGTTTT?GCCAAATCGC?ATGTATGGTT

		TGGTTTAACG?TTAGTACACG?GTAGAATAAC?GATCGGGTAT?GGTAATTTAG ACCTCCCGAT?CAATTGTTGT?TGAAAACCTG?TCACGTAACT?TCAGGACACA GAAGGCGTAG?CTCAAGGGTG?AATAAAAGAC?CAGTTTACAT?ATCAAAAAAA AAAAAAAAAA?AAAAAAAAAA
			SEQ?ID：11	CCRA178 R aa	MAGSSAEQLL?SRIAAGDGHG?ENSSYFDGWK?AYDTNPFDLR?HNRDGVIQMG LAENQLSLDL?IEQWSVDHPE?ASICTAQGAP?QFRRIANFQD?YHGLPEFREA MAKFMGQVRG?GKVTFDPDRV?VMCGGATGAQ?DTLAFCLADP?GDAYLVPTPY YPAFDRDCCW?RSGVKLLPIE?CHSSNNFTLT?REALVSAYDG?ARRQGVRVRG ILITNPSNPL?GTTMDRGTLA?MLAAFATERR?VHLICDEIYA?GSVFAKPGFV SIAEVIERGD?APGCNRDLVH?IAYSLSKDFG?LPGFRVGIVY?SYNDDVVACA RKMSSFGLVS?SQTQHFLAMM?LADAEFMARF?LAESARRLAA?RHDRFVAGLR EVGIACLPGN?AGLFSWMDLR?GMLRERTHDA?ELELWRVIVH?RVKLNVSPGT SFHCNEPGWF?RVCYANMDDD?TMEVALDRIR?RFVRQHQHSK?AKAERWAATR PLRLSLPRRG?ATTASHLAIP?SPLALLSPQS?PMVHAS
SEQ?ID：12	ACCF1 (forward primer	ccagatgggcctcgccgagaac
			SEQ?ID：13	ACC1 (reverse primer)	gttggcgtagcagacgcggaacca

Claims (91)

1. isolating or the recombinate vegetable cell that knocks out, it comprises at least one destruction at least one endogenous acc synthase gene, wherein corresponding with lacking this destructive control plant cell is compared, and this energy of rupture suppresses proteic expression of at least a acc synthase or activity.

2. the vegetable cell of claim 1, wherein said at least one endogenous acc synthase gene comprises nucleotide sequence or its complementary sequence, and described sequence and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6) or SEQ ID NO:3 (gACS7) have at least about 85% sequence identity.

3. the vegetable cell of claim 1, wherein said at least one endogenous acc synthase gene comprises 2 or more a plurality of endogenous acc synthase gene.

4. the vegetable cell of claim 1, wherein said at least one endogenous acc synthase gene comprises 3 or more a plurality of endogenous acc synthase gene.

5. the vegetable cell that the vegetable cell of claim 1, wherein said at least one energy of rupture cause knocking out is compared the ethylene production of minimizing with the control plant cell.

6. the vegetable cell of claim 1, wherein said at least one destruction comprises one or more transposons, and wherein said one or more transposons are at least one endogenous acc synthase gene.

7. the vegetable cell of claim 6, wherein said at least one destruction is the destruction of isozygotying at least one acc synthase gene.

8. the vegetable cell of claim 6, wherein said at least one destruction is the destruction of the heterozygosis at least one acc synthase gene.

9. the vegetable cell of claim 1, wherein said at least one destruction comprises one or more point mutation, and wherein said one or more point mutation are at least one endogenous acc synthase gene.

10. the vegetable cell of claim 1, wherein import the vegetable cell that knocks out by the polynucleotide sequence that at least one is comprised acc synthase nucleotide sequence or its subsequence, thereby at least one polynucleotide sequence so that being arranged, justice or antisense orientation is connected on the promotor, at least one is destroyed the vegetable cell that importing knocks out, wherein this at least one polynucleotide sequence and SEQ IDNO:4 (cACS2), SEQ ID NO:5 (cACS6), SEQ ID NO:6 (cACS7) or SEQID NO:10 (CCRA178R) or its subsequence or its complementary sequence have at least about 85% sequence identity.

11. the vegetable cell of claim 10, wherein said at least one polynucleotide also comprise carrier.

12. the vegetable cell of claim 11, wherein said carrier comprises virus vector.

13. the vegetable cell of claim 1, wherein by importing at least one polynucleotide sequence, it is included as one or more subsequences that RNA is reticent or disturb the acc synthase nucleotide sequence of design, at least one is destroyed importing the vegetable cell that knocks out.

14. the vegetable cell of claim 13, wherein said at least one polynucleotide also comprise carrier.

15. the vegetable cell of claim 14, wherein said carrier comprises virus vector.

16. the vegetable cell of claim 1, wherein said vegetable cell is from the plant of Gramineae (Gramineae (Gramineae)).

17. the vegetable cell of claim 16, wherein said plant are to be selected from following genus: Acamptoclados, Stem of Lovely Achnatherum belongs to, Achnella, a phoenix Panicum, Aegilops, Aegopgon, Agroelymus, Agrohordeum, Agropogon, Agropyron, Agrositanion, Agrostis, Hairgrass, Allolepis, Mao Yingcao belongs to, amur foxtail belongs to, Amblyopyrum, Ammophila, Ampelodesmos, Amphibromus, Amphicarpum, Amphilophis, Anastrophus, Ana therum, Andropogon, Anema thele, leymus, Anisantha, Anthaenantia, Anthephora, Anthochloa, Anthoxanthum, Apera, Root of Common Apluda belongs to, Archtagrostis, Arctophila, Argillochloa, Aristida, oatgrass, hispid arthraxon belongs to, Arthrostylidium, Arundinaria, Arundinella hirta (Thunb.) Tanaka belongs to, giantreed belongs to, Aspris, Atheropogon, Avena, Avenella, Avenochloa, Avenula, carpetweed belongs to, the Ce Sinobambusa, Beckmannia, Blepharidachne, Blepharoneuron, hole Ying grass belongs to, gramagrass belongs to, Brachiaria, short grain husk grass belongs to, false bromegrass belongs to, Ling Fengcao belongs to, Brizopyrum, Bromelica, Bromopsis, Brome, buffalo grass, Bulbilis, Chee Reedbentgrass belongs to, Calamovilfa, Campulosus, Capriola, brookgrass belongs to, Catapodium, Cathestecum, Cenchropsis, Cenchrus, the garden sorrel awns belongs to, Ceratochloa, Chaetochloa, Chasmanthium, side's Sinobambusa, Chionochloa, Radix seu Caulis Embeliae Parviflorae belongs to, Chondrosum, Chrysopon, Chusquea, Dan Ruicao belongs to, Cladoraphis, empty axle thatch belongs to, Coix, Mudgrass, Colpodium, Coridochloa, Cornucopiae, cattail and reed belongs to, Corynephorus, Cottea, Critesion, pricklegrass belongs to, Ctenium, Cutandia, Cylindropyrum, Cymbopogon, Cynodon, Cynosurus, Cytrococcum, orchardgrass, talon eria, flat Chinese silvergrass belongs to, Dasyochloa, Dasyprum, Davyella, male bamboo belongs to, hairgrass belongs to, Desmazeria, wild blue or green thatch belongs to, Diarina, Manchurian Beakgrain belongs to, two type Pittosporums, the honeysuckle grass belongs to, Dichelachne, Diectomus, knotgrass, the wild goose thatch belongs to, Dimorpostachys, curved fringe grass belongs to, two bran grass belong to, Dissanthelium, Dissochondrus, Distichlis, sickle preface Sinobambusa, Dupoa, Dupontia, Echinochloa, Ectosperma, Ehrharta, Herba Eleusines Indicae belongs to, Elyhordeum, Elyleymus, Elymordeum, lyme grass belongs to, glue squama standing grain belongs to, Elysitanion, Elytesion, couchgrass belongs to, nine top grass belong to, the intestines moss belongs to, Epicampes, Herba Eragrostidis pilosae belongs to, Herba pteridis vittatae belongs to, Eremopoa, wheat straw belongs to drought, Plumegrass, Ericoma, Erichloa, Eriochrysis, Erioneuron, the class Sorghum, Euclasta, the gold thatch belongs to, intending Jin Mao belongs to, true fringe grass belongs to, the arrow Sinobambusa, festuca, Festulolium, Fingerhuthia, Fluminia, ear bran grass belongs to, Gastridium, Gaudinia, huge Sinobambusa, Glyceria, Graphephorum, Gymnopogon, Gynerium, ball fringe grass belongs to, Hainardia, Hakonechloa, Hayna ldia, Heleochloa, different Avena, Hemarthria compressa belongs to, Hesperochloa, Hesperostipa, Huang Mao belongs to, Hibanobambusa, Hierochloe, Hilaria, Holcus, Homalocenchrus, Hordeum, Hydrochloa, Water Hymenacue belongs to, thatch belongs to bud, Hypogynium, the hedgehog grass belongs to, apart from the flower Panicum, cogon, indocalamus belongs to, the willow leaf indocalamus belongs to, ischaemum, Ixophorus, Koeleria, Korycarpus, Lagurus, Lamarckia, Lasiacis, false Oryza, Sprangletop, Leptochloopsis, Leptocoryphium, thin bran grass belongs to, Leptogon, thin fringe grass belongs to, Lerchenfeldia, silver fringe grass belongs to, Leymostachys, leymus, Limnodea, Lithachne, lolium, Lophochlaena, Lophochloa, Lophopyrum, Ludolfia, Luziola, Lycurus, Lygeum, Maltea, Manisuris, Megastachya, Melica, molasses grass belongs to, Mibora, little grass belongs to, Microlaena, the green bristlegrass Sinobambusa, the chestnut grass belongs to, awns belongs to, Mao Jiancao belongs to, Molinia, Monan thochloe, Monerma, Monroa, muhly belongs to, Nardus, Nassella, Nazia, Neeragrostis, Neoschischkinia, Neostapfia, the class reed belongs to, Nothoholcus, Olyra, Opizia, ask the rice grass to belong to, Orcuttia, Oryza, ricegrass, Otatea, the Yunnan Sinobambusa, Panicularia, Panicum, Pappophorum, false Hemarthria compressa belongs to, Pascopyrum, the class Paspalum, Paspalum, Pennisetum, phalaris arundinacea, Phalaroides, Phanopyrum, Pharus, Phippsia, ladder forage spp, Pholiurus, reed belongs to, Phyllostachys, Piptatherum, Piptochaetium, big bright Sinobambusa, Pleopogon, Pleuraphis, Pleuropogon, annual bluegrass belongs to, Podagrostis, the caput grass belongs to, Dan Xucao belongs to, new wheat straw belongs to, Pseudelymus, Pseudoroegneria, vow Sinobambusa, Ptilagrostis, the alkali thatch belongs to, Pucciphippsia, Redfieldia, Reimaria, Reimarochloa, Rhaphis, Rhombolytrum, Herba Murdanniae Nudiflorae belongs to, roegneria kamoji belongs to, Rostraria, Rottboellia exaltata L. F. belongs to, Rytilix, saccharum, capsule grain husk grass belongs to, red Sinobambusa, Sasaella, the China indocalamus belongs to, Savastana, Schedonnardus, the tooth bran belongs to, splitting the bran thatch belongs to, Schizachyrium scoparium belongs to, splitting the fringe grass belongs to, hard grass belongs to, Scleropoa, Scleropogon, Scolochloa, Scribneria, Secale, the flat Sinobambusa of industry, Sesleria, setaria, Japan's Sinobambusa, Sieglingia, the Yushan Sinobambusa, Tang's Sinobambusa, Sinocalamus, Sitanion, Sorghastrum, sorghum, the rice grass belongs to, Sphenopholis, big oily awns belongs to, mouse tail Castanea, Stapfia, Steinchisma, Herba Stenotaphri helferi belongs to, Stipa, Stipagrostis, Stiporyzopsis, Swallenia, Syntherisma, Taeniatherum, Terrellia, Terrelymus, the oats Sinobambusa, villous themeda belongs to, Thinopyrum, the spool grass belongs to, tigergrass, Torresia, Torreyochloa, Trachynia, Trachypogon, prickle grass belongs to, Trichachne, Trichloris, Tricholaena, Trichoneura, Tridens, Triodia, Triplasis, the grass Nereis, the friction grass belongs to, Trisetobromus, Trisetum, Triticosecale, Triticum, Tuctoria, Uniola, Urachne, Uralepis, tail bran grass belongs to, Vahlodea, Valota, Vaseyochloa, Ventenata, Vetiveria, Vilfa, Vulpia, Willkommia, the Yushan Sinobambusa, Zea, wild rice stem belongs to, Zizaniopsis and Zoysia.

18. the vegetable cell of claim 17, wherein said plant are Zea mays, wheat, rice, Chinese sorghum, barley, oat, turfgrass or rye.

19. the vegetable cell of claim 1, wherein said vegetable cell is from dicotyledons or monocotyledons.

20. the vegetable cell of claim 1, wherein said vegetable cell are in comprising the hybrid plant of protecting green potentiality phenotype.

21. the vegetable cell of claim 1, wherein said vegetable cell are in the plant that comprises the male sterile phenotype.

22. vegetable cell regenerated plant by claim 1.

23. comprise the plant that knocks out that protects green potentiality phenotype, this is protected green potentiality phenotype and is derived from destruction at least one endogenous acc synthase gene, wherein said destruction comprises one or more transposons or one or more point mutation, and wherein compare with corresponding control plant, this energy of rupture suppresses proteic expression of at least a acc synthase or activity.

24. the plant that knocks out of claim 23, wherein said at least one endogenous acc synthase gene comprises nucleotide sequence or its complementary sequence, and described sequence and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6) or SEQ ID NO:3 (gACS7) or its complementary sequence have at least about 85% sequence identity.

25. the plant that knocks out of claim 23, the green potentiality phenotype of the guarantor of wherein said transgenic plant comprises, and compares the time of the plant of keeping photosynthetic activity of enhanced drought resistance, prolongation or the leaf aging of delay with corresponding control plant.

26. the plant that knocks out of claim 23, the wherein said plant that knocks out is a hybrid plant.

27. the plant that knocks out of claim 23, the wherein said plant that knocks out are from Gramineae (Gramineae (Gramineae)).

28. the plant that knocks out of claim 27, the wherein said plant that knocks out is Zea mays, wheat, rice, Chinese sorghum, barley, oat, turfgrass or rye.

29. comprise the genetically modified plant that knocks out that protects green potentiality phenotype, the green potentiality phenotype of described guarantor is derived from the energy ethene suppressing synthetic transgenosis of at least one importing, the transgenosis of wherein said at least one importing comprises the nucleotide sequence of at least a acc synthase of encoding, this nucleotide sequence and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6), SEQ ID NO:3 (gACS7), SEQ ID NO:4 (cACS2), SEQ ID NO:5 (cACS6), SEQ ID NO:6 (cACS7) or SEQ ID NO:10 (CCRA178R) or its subsequence or its complementary sequence have at least about 85% sequence identity, and its configurational energy is modified the expression or the activity level of at least a acc synthase.

30. the genetically modified plant that knocks out of claim 29, wherein said configuration comprise antisense, justice or RNA silence are arranged or disturb configuration.

31. the genetically modified plant that knocks out of claim 29, wherein said transgenosis comprises the promotor of tissue-specific promotor or induction type.

32. the genetically modified plant that knocks out of claim 29, the green potentiality phenotype of the guarantor of wherein said transgenic plant comprises, and compares the time of the plant of keeping photosynthetic activity of enhanced drought resistance, prolongation or the leaf aging of delay with corresponding control plant.

33. the genetically modified plant that knocks out of claim 29, wherein said plant are from Gramineae (Gramineae (Gramineae)).

34. the genetically modified plant that knocks out of claim 33, wherein said plant is Zea mays, wheat, rice, Chinese sorghum, barley, oat, turfgrass or rye.

35. comprise the transgenic plant that protect green potentiality phenotype, the green potentiality phenotype of described guarantor is derived from the energy ethene suppressing synthetic transgenosis of at least one importing, the transgenosis of wherein said at least one importing comprises the nucleotide sequence of the subsequence of at least a acc synthase of encoding, this at least a acc synthase and SEQ ID NO:7 (pACS2), SEQ ID NO:8 (pACS6), SEQID NO.:9 (pACS7) or SEQ ID NO:11 (pCCRA178R) have at least about 85% sequence identity, it is the reticent or interference configuration of RNA, and can modify the expression or the activity level of at least a acc synthase.

36. the transgenic plant of claim 35, the green potentiality phenotype of the guarantor of wherein said transgenic plant comprises, and compares the time of the plant of keeping photosynthetic activity of enhanced drought resistance, prolongation or the leaf aging of delay with corresponding control plant.

37. the transgenic plant of claim 35, wherein said plant are from Gramineae (Gramineae (Gramineae)).

38. the transgenic plant of claim 37, wherein said plant are Zea mays, wheat, rice, Chinese sorghum, barley, oat, turfgrass or rye.

39. polynucleotide isolating or reorganization, it comprises and is selected from following member:

(a) polynucleotide or its complementary sequence, itself and SEQ ID NO:1 (gACS2), SEQID NO:2 (gACS6), SEQ ID NO:3 (gACS7), SEQ ID NO:4 (cACS2), SEQ ID NO:5 (cACS6), SEQ ID NO:6 (cACS7) or SEQ ID NO:10 (CCRA178R) or its subsequence have at least about 85% sequence identity;

(b) polynucleotide or its complementary sequence, peptide sequence or its subsequence or its conservative variant of its SEQ ID NO:7 (pACS2) that can encode, SEQ ID NO:8 (pACS6), SEQ ID NO.:9 (pACS7) or SEQ ID NO:11 (pCCRA178R); With,

(c) polynucleotide or its complementary sequence, it can be under stringent condition and at least 100 polynucleotide subsequences hybridization in abutting connection with Nucleotide that comprise SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6), SEQ IDNO:3 (gACS7), SEQ ID NO:4 (cACS2), SEQ ID NO:5 (cACS6), SEQID NO:6 (cACS7) or SEQ ID NO:10 (CCRA178R) of complete length basically.

40. the polynucleotide of the isolating or reorganization of claim 39, wherein said polynucleotide can ethene suppressing productions when expressing in plant.

41. the polynucleotide of the isolating or reorganization of claim 39, it also comprises expression cassette, and described expression cassette comprises the promotor that is operably connected on the polynucleotide.

42. the polynucleotide of the isolating or reorganization of claim 41, wherein said promotor comprises the promotor of composing type.

43. the polynucleotide of the isolating or reorganization of claim 41, wherein said promotor comprises the promotor of induction type.

44. the polynucleotide of the isolating or reorganization of claim 41, wherein said promotor comprises tissue-specific promotor.

45. the polynucleotide of the isolating or reorganization of claim 44, wherein said tissue-specific promotor comprises leaf-specific promotor or flower pesticide-specific promotor.

46. the polynucleotide of the isolating or reorganization of claim 41, wherein said polynucleotide are connected on the promotor at antisense orientation.

47. the polynucleotide of the isolating or reorganization of claim 41, wherein said polynucleotide are connected on the promotor at sense orientation.

48. the polynucleotide of the isolating or reorganization of claim 41, wherein said polynucleotide are RNA silences or disturb configuration.

49. the polynucleotide of the isolating or reorganization of claim 39, it also comprises carrier, and described carrier comprises the promotor that is operably connected on the polynucleotide.

50. the polynucleotide of the isolating or reorganization of claim 49, wherein said carrier is a virus vector.

51. comprise the plant that knocks out of male sterile phenotype, this male sterile phenotype is derived from least one destruction at least one endogenous acc synthase gene, compares with corresponding control plant, this energy of rupture suppresses proteic expression of at least a acc synthase or activity.

52. the plant that the plant that knocks out of claim 51, wherein said at least one energy of rupture cause knocking out is compared the ethylene production of minimizing with control plant.

53. the plant that knocks out of claim 51, wherein said at least one destruction comprises one or more transposons, and wherein said one or more transposons are at least one endogenous acc synthase gene.

54. the plant that knocks out of claim 51, wherein said at least one destruction comprises one or more point mutation, and wherein said one or more point mutation are at least one endogenous acc synthase gene.

55. the plant that knocks out of claim 51, wherein by importing at least one polynucleotide sequence, it is included as one or more subsequences that RNA is reticent or disturb the acc synthase nucleotide sequence of design, at least one is destroyed importing in the plant that knocks out.

56. the plant that knocks out of claim 51, wherein said male sterile phenotype comprise the plant that knocks out is compared minimizing with control plant pollen release.

57. comprise the genetically modified plant that knocks out of male sterile phenotype, described male sterile phenotype is derived from the energy ethene suppressing synthetic transgenosis of at least one importing, the transgenosis of wherein said at least one importing comprises the nucleotide sequence of at least a acc synthase of encoding, this nucleotide sequence and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6), SEQ ID NO:3 (gACS7), SEQ ID NO:4 (cACS2), SEQ ID NO:5 (cACS6), SEQ ID NO:6 (cACS7) or SEQ ID NO:10 (CCRA178R) or its subsequence or its complementary sequence have at least about 85% sequence identity, and its configurational energy is modified the expression or the activity level of at least a acc synthase.

58. the genetically modified plant that knocks out of claim 57, wherein said configuration comprise antisense, justice or RNA silence are arranged or disturb configuration.

59. the genetically modified plant that knocks out of claim 57, wherein said transgenosis comprises the promotor of tissue-specific promotor or induction type.

60. suppress the method for ethylene production in the plant, this method comprises:

One or more acc synthase genes in the deactivation plant, wherein said one or more acc synthase gene one or more acc synthases of encoding, wherein at least a and SEQ ID NO:7 (pACS2), SEQ ID NO:8 (pACS6), SEQID NO:9 (pAC7) or the SEQ ID NO:11 (pCCRA178R) in one or more acc synthases has at least about 85% identity.

61. the method for claim 60, at least one in wherein said one or more acc synthase genes and SEQ ID NO:1 (gACS2), SEQ ID NO:2 (gACS6) or SEQ IDNO:3 (gAC7) or its complementary sequence have at least about 85% identity.

62. the method for claim 60, wherein said inactivation step comprises one or more sudden changes importing acc synthase gene sequences, wherein the one or more sudden changes in the acc synthase gene sequence comprise one or more transposons, compare the one or more acc synthase genes of deactivation thus with corresponding control plant.

63. the method for claim 62, wherein said one or more sudden changes are included in the destruction of isozygotying in one or more acc synthase genes.

64. the method for claim 62, wherein said one or more sudden changes are included in the destruction of the heterozygosis in one or more acc synthase genes.

65. the method for claim 62 wherein imports one or more sudden changes by sexual hybridization.

66. the method for claim 60, wherein said inactivation step comprises one or more sudden changes importing acc synthase gene sequences, wherein the one or more sudden changes in the acc synthase gene sequence comprise one or more point mutation, compare the one or more acc synthase genes of deactivation thus with corresponding control plant.

67. the method for claim 60, wherein inactivation step comprises:

(a) at least one polynucleotide sequence is imported in the plant, wherein said at least one polynucleotide sequence comprises nucleic acid or its subsequence and the promotor of one or more acc synthases of encoding, and this promotor can work in plant, to generate the RNA sequence; With,

(b) express at least one polynucleotide sequence, compare with corresponding control plant thus, the one or more acc synthase genes of deactivation.

68. the method for claim 67 wherein by the transfer of electroporation, microparticle bombardment or edaphic bacillus-mediation, imports at least one polynucleotide sequence.

69. the method for claim 67, wherein said polynucleotide are connected on the promotor with sense orientation.

70. the method for claim 67, wherein said polynucleotide are connected on the promotor with antisense orientation.

71. the method for claim 67, wherein said polynucleotide are designed for the reticent or interference of RNA.

72. the method for claim 67, wherein said promotor comprise the promotor of tissue-specific promotor or induction type.

73. the method for claim 60, wherein said plant are from Gramineae (Gramineae (Gramineae)).

74. the plant of claim 73, wherein said plant are Zea mays, wheat, rice, Chinese sorghum, barley, oat, turfgrass or rye.

75. the plant that produces by the method for claim 60.

76. regulate the method for the green potentiality of guarantor of plant, this method comprises:

A) select at least one acc synthase gene to suddenly change, thus the acc synthase gene that provides at least one to need;

B) mutant form with at least one acc synthase gene that needs imports plant; With,

C) express mutant form, thus the green potentiality of guarantor of regulating plant.

77. the method for claim 76, the green potentiality of the guarantor of wherein said plant comprise:

Compare with corresponding control plant,

(a) be reduced by at least the production of the specific mRNA of a kind of acc synthase;

(b) production of minimizing acc synthase;

(c) production of minimizing ethene;

(d) postpone the leaf aging;

(e) strengthen drought resistance;

(f) keep photosynthetic activity for a long time;

(g) enhanced transpiration;

(h) enhanced stomatal conductance;

(i) enhanced CO ₂Assimilation;

What (j) prolong keeps CO ₂The time of assimilation; Or,

(k) (a) arbitrary combination-(j).

78. the method for claim 76 wherein selects at least one acc synthase gene to comprise the degree of the green potentiality of guarantor of determining needs.

79. the method for claim 78, the degree of the green potentiality of guarantor of wherein said needs is weak, medium or strong.

80. the method for claim 76, wherein said acc synthase gene can be encoded and be selected from following acc synthase: SEQ ID NO:7 (pACS2), SEQ ID NO:8 (pACS6), SEQID NO:9 (pAC7) and SEQ ID NO:11 (pCCRA178R).

81. the method for claim 76, wherein said mutant form comprises the heterozygous mutant at least one acc synthase gene.

82. the method for claim 76, wherein said mutant form comprises the homozygous mutation at least one acc synthase gene.

83. the method for claim 76, wherein said mutant form comprises the subsequence of the acc synthase gene of at least one needs, and it is antisense, justice or RNA silence is arranged or disturb configuration.

84. the method for claim 76, wherein said mutant form imports by transfer, electroporation, microparticle bombardment or the sexual hybridization of edaphic bacillus-mediation.

85. the method for claim 76, wherein said plant are from Gramineae (Gramineae (Gramineae)).

86. the plant of claim 85, wherein said plant are Zea mays, wheat, rice, Chinese sorghum, barley, oat, turfgrass or rye.

87. the plant that produces by the method for claim 76.

88. be used to regulate the test kit of the green potentiality of guarantor of plant, this test kit comprises: container, it is equipped with at least one polynucleotide sequence that comprises nucleotide sequence, and wherein nucleotide sequence and SEQID NO:1 (gACS2), SEQ ID NO:2 (gACS6), SEQ ID NO:3 (gACS7), SEQ ID NO:4 (cACS2), SEQ ID NO:5 (cACS6), SEQ ID NO:6 (cAC7) or SEQ ID NO:10 (CCRA178R) or its subsequence or its complementary sequence have at least about 85% identity.

89. the test kit of claim 88, wherein said test kit also comprise about using at least one polynucleotide sequence to come the illustrative material of the green potentiality of guarantor of controlling plant.

90. be used to regulate the male sterile test kit of plant, this test kit comprises: container, it is equipped with at least one polynucleotide sequence that comprises nucleotide sequence, and wherein nucleotide sequence and SEQID NO:1 (gACS2), SEQ ID NO:2 (gACS6), SEQ ID NO:3 (gACS7), SEQ ID NO:4 (cACS2), SEQ ID NO:5 (cACS6), SEQ ID NO:6 (cAC7) or SEQ ID NO:10 (CCRA178R) or its subsequence or its complementary sequence have at least about 85% identity.

91. the test kit of claim 90, wherein said test kit also comprise about using at least one polynucleotide sequence to come the male sterile illustrative material of controlling plant.

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